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A. Publications in refereed journals

(Highly quoted papers are denoted by an asterisk)

Submitted:
449.  Sarin, N., Brandenburg, A., & Haskell, B.: 2023, “Confronting the neutron star population with inverse cascades,” Astrophys. J. Lett., submitted (arXiv:2305.14347, ADS, HTML, 2023/Sari+Bran+Hask23)
448.  Brandenburg, A., Kamada, K., Mukaida, K., Schmitz, K., & Schober, J.: 2023, “Chiral magnetohydrodynamics with zero total chirality,” Phys. Rev. D, submitted (arXiv:2304.06612, ADS, HTML, 2023/Bran+23)
447.  Brandenburg, A., Elstner, D., Masada, Y., & Pipin, V.: 2023, “Turbulent processes and mean-field dynamo,” Spa. Sci. Rev., submitted (arXiv:2303.12425, ADS, HTML, 2023/Bran+Elst+Masa+Pipi23)
446.  Carenza, P., Sharma, R., Marsh, M. C. D., Brandenburg, A., Müller, E.: 2023, “Magnetohydrodynamics predicts heavy-tailed distributions of axion-photon conversion,” Phys. Rev. Lett., submitted (arXiv:2208.04333, ADS, HTML, 2022/Care+etal22)
445.  He, Y., Roper Pol, A., & Brandenburg, A.: 2023, “Leading-order nonlinear gravitational waves from reheating magnetogeneses,” Phys. Rev. D, submitted (arXiv:2110.14456, ADS, 2021/He+RopP+Bran21)
In press:
444.  Mizerski, K. A., Yokoi, N., & Brandenburg, A.: 2023, “Cross-helicity effect on $\alpha$-type dynamo in non-equilibrium turbulence,” J. Plasma Phys., in press (arXiv:2303.01090, ADS, HTML, 2023/Mize+Yoko+Bran23)
443.  He, Y., Roper Pol, A., & Brandenburg, A.: 2023, “Modified propagation of gravitational waves from the early radiation era,” J. Cosmol. Astropart. Phys., in press (arXiv:2212.06082, ADS, HTML, 2023/He+23)
442.  Brandenburg, A., & Ntormousi, E.: 2023, “Galactic Dynamos,” Annu. Rev. Astron. Astrophys., in press (arXiv:2211.03476, ADS, HTML, 2023/Bran+Ntor23)
Published:
441.  Brandenburg, A., & Larsson, G.: 2023, “Turbulence with magnetic helicity that is absent on average,” Atmosphere 14, 932 (arXiv:2305.08769, ADS, DOI, HTML, 2023/Bran+Lars23)
440.  Brandenburg, A., Kamada, K., & Schober, J.: 2023, “Decay law of magnetic turbulence with helicity balanced by chiral fermions,” Phys. Rev. Res. 5, L022028 (arXiv:2302.00512, ADS, DOI, HTML, 2023/Bran+Kama+Scho232023/Bran+Kama+Scho23_ad
439.  Brandenburg, A.: 2023, “Hosking integral in nonhelical Hall cascade,” J. Plasma Phys. 89, 175890101 (arXiv:2211.14197, ADS, DOI, HTML, 2023/Bran23)
438.  Mtchedlidze, S., Domínguez-Fernández, P., Du, X., Schmidt, W., Brandenburg, A., Niemeyer, J., & Kahniashvili, T.: 2023, “Inflationary and phase-transitional primordial magnetic fields in galaxy clusters,” Astrophys. J. 944, 100 (arXiv:2210.10183, ADS, DOI, 2023/Mtch+23)
437.  Brandenburg, A.: 2023, “Quadratic growth during the COVID-19 pandemic: merging hotspots and reinfections,” J. Phys. A: Math. Theor. 56, 044002 (arXiv:2206.15459, ADS, DOI, HTML, 2023/Bran23cor)
436.  Brandenburg, A., Rogachevskii, I., & Schober, J.: 2023, “Dissipative magnetic structures and scales in small-scale dynamos,” Mon. Not. Roy. Astron. Soc. 518, 6367–6375 (arXiv:2209.08717, ADS, DOI, HTML, 2023/Bran+Roga+Scho232023/Bran+Roga+Scho23_supp
435.  Brandenburg, A., Zhou, H., & Sharma, R.: 2023, “Batchelor, Saffman, and Kazantsev spectra in galactic small-scale dynamos,” Mon. Not. Roy. Astron. Soc. 518, 3312–3325 (arXiv:2207.09414, ADS, DOI, HTML, 2023/Bran+Zhou+Shar23)
434.  Sharma, R., & Brandenburg, A.: 2022, “Low frequency tail of gravitational wave spectra from hydromagnetic turbulence,” Phys. Rev. D 106, 103536 (arXiv:2206.00055, ADS, DOI, HTML, 2022/Shar+Bran222022/Shar+Bran22_supp
433.  Zhou, H., Sharma, R., & Brandenburg, A.: 2022, “Scaling of the Hosking integral in decaying magnetically-dominated turbulence,” J. Plasma Phys. 88, 905880602 (arXiv:2206.07513, ADS, DOI, HTML, 2022/Zhou+Shar+Bran22)
432.  Sinha, S., Gupta, O., Singh, V., Lekshmi, B., Nandy, D., Mitra, D., Chatterjee, S., Bhattacharya, S., Chatterjee, S., Srivastava, N., Brandenburg, A., & Pal, S.: 2022, “A comparative analysis of machine-learning models for solar flare forecasting: Identifying high-performing active region flare indicators,” Astrophys. J. 935, 45 (arXiv:2204.05910, ADS, DOI, 2022/Sinh_etal22)
431.  Li, X.-Y., Mehlig, B., Svensson, G., Brandenburg, A., & Haugen, N. E. L.: 2022, “Collision fluctuations of lucky droplets with superdroplets,” J. Atmos. Sci. 79, 1821–1835 (arXiv:1810.07475, ADS, DOI, HTML, 2022/Li_etal22)
430.  Käpylä, M. J., Rheinhardt, M., & Brandenburg, A.: 2022, “Compressible test-field method and its application to shear dynamos,” Astrophys. J. 932, 8 (arXiv:2106.01107, ADS, DOI, HTML, 2022/Kapy+Rhei+Bran22)
429.  Kahniashvili, T., Clarke, E., Stepp, J., & Brandenburg, A.: 2022, “Big bang nucleosynthesis limits and relic gravitational wave detection prospects,” Phys. Rev. Lett. 128, 221301 (arXiv:2111.09541, ADS, DOI, 2022/Kahn_etal222022/Kahn_etal22_supp
428.  Brandenburg, A., & Ntormousi, E.: 2022, “Dynamo effect in unstirred self-gravitating turbulence,” Mon. Not. Roy. Astron. Soc. 513, 2136–2151 (arXiv:2112.03838, ADS, DOI, 2022/Bran+Ntor22)
427.  Mtchedlidze, S., Domínguez-Fernández, P., Du, X., Brandenburg, A., Kahniashvili, T., O'Sullivan, S., Schmidt, W., & Brüggen, M.: 2022, “Evolution of primordial magnetic fields during large-scale structure formation,” Astrophys. J. 929, 127 (arXiv:2109.13520, ADS, DOI, 2022/Mtch+22)
426.  Roper Pol, A., Mandal, A., Brandenburg, A., & Kahniashvili, T.: 2022, “Polarization of gravitational waves from helical MHD turbulent sources,” J. Cosmol. Astropart. Phys. 04, 019 (arXiv:2107.05356, ADS, DOI, 2022/RopP+Mand+Bran+Kahn22)
425.  Schober, J., Rogachevskii, I., & Brandenburg, A.: 2022, “Production of a chiral magnetic anomaly with emerging turbulence and mean-field dynamo action,” Phys. Rev. Lett. 128, 065002 (arXiv:2107.12945, ADS, DOI, 2022/Scho+Roga+Bran22a)
424.  Schober, J., Rogachevskii, I., & Brandenburg, A.: 2022, “Dynamo instabilities in plasmas with inhomogeneous chiral chemical potential,” Phys. Rev. D 105, 043507 (arXiv:2107.13028, ADS, DOI, 2022/Scho+Roga+Bran22b)
423.  Haugen, N. E. L., Brandenburg, A., Sandin, C., & Mattsson, L.: 2022, “Spectral characterisation of inertial particle clustering in turbulence,” J. Fluid Mech. 934, A37 (arXiv:2105.01539, ADS, DOI, HTML, 2022/Haug+Bran+Sand+Matt22)
422.  Brandenburg, A., He, Y., & Sharma, R.: 2021, “Simulations of helical inflationary magnetogenesis and gravitational waves,” Astrophys. J. 922, 192 (arXiv:2107.12333, ADS, DOI, HTML, 2021/Bran+He+Shar21)
421.  Brandenburg, A., & Sharma, R.: 2021, “Simulating relic gravitational waves from inflationary magnetogenesis,” Astrophys. J. 920, 26 (arXiv:2106.03857, ADS, DOI, HTML, 2021/Bran+Shar21)
420.  Brandenburg, A., & Das, U.: 2021, “Turbulent radiative diffusion and turbulent Newtonian cooling,” Phys. Fluids 33, 095125 (arXiv:2010.07046, ADS, DOI, HTML, 2021/Bran+Das21)
419.  Brandenburg, A., Clarke, E., He, Y., & Kahniashvili, T.: 2021, “Can we observe the QCD phase transition-generated gravitational waves through pulsar timing arrays?” Phys. Rev. D 104, 043513 (arXiv:2102.12428, ADS, DOI, HTML, 2021/Bran+Clar+He+Kahn21)
418.  He, Y., Brandenburg, A., & Sinha, A.: 2021, “Spectrum of turbulence-sourced gravitational waves as a constraint on graviton mass,” J. Cosmol. Astropart. Phys. 07, 015 (arXiv:2104.03192, ADS, HTML, 2021/He+Bran+Sinh21)
417.  Brandenburg, A., Gogoberidze, G., Kahniashvili, T., Mandal, S., & Roper Pol, A., & Shenoy, N.: 2021, “The scalar, vector, and tensor modes in gravitational wave turbulence simulations,” Class. Quantum Grav. 38, 145002 (arXiv:2103.01140, ADS, DOI, 2021/BGKMRPS21)
416.  Brandenburg, A., He, Y., Kahniashvili, T., Rheinhardt, M., & Schober, J.: 2021, “Gravitational waves from the chiral magnetic effect,” Astrophys. J. 911, 110 (arXiv:2101.08178, ADS, DOI, HTML, 2021/Bran_etal21)
415.  Blanco, N., Stafford, K., Lavoie, M.-C., Brandenburg, A., Górna, M. W., & Merski, M.: 2021, “A simple model for the total number of SARS-CoV-2 infections on a national level,” Epidemiology and Infection 149, e80 (arXiv:2007.02712, ADS, DOI, 2021/Blan+21)
414.  Jakab, P., & Brandenburg, A.: 2021, “The effect of a dynamo-generated field on the Parker wind,” Astron. Astrophys. 647, A18 (arXiv:2006.02971, ADS, DOI, HTML, 2021/Jaka+Bran21)
413.  Kahniashvili, T., Brandenburg, A., Gogoberidze, G., Mandal, S., & Roper Pol, A.: 2021, “Circular polarization of gravitational waves from early-universe helical turbulence,” Phys. Rev. Res. 3, 013193 (arXiv:2011.05556, ADS, DOI, HTML, 2021/Kahn_etal21)
412.  Pencil Code Collaboration: Brandenburg, A., Johansen, A., Bourdin, P. A., Dobler, W., Lyra, W., Rheinhardt, M., Bingert, S., Haugen, N. E. L., Mee, A., Gent, F., Babkovskaia, N., Yang, C.-C., Heinemann, T., Dintrans, B., Mitra, D., Candelaresi, S., Warnecke, J., Käpylä, P. J., Schreiber, A., Chatterjee, P., Käpylä, M. J., Li, X.-Y., Krüger, J., Aarnes, J. R., Sarson, G. R., Oishi, J. S., Schober, J., Plasson, R., Sandin, C., Karchniwy, E., Rodrigues, L. F. S., Hubbard, A., Guerrero, G., Snodin, A., Losada, I. R., Pekkilä, J., & Qian, C.: 2021, “The Pencil Code, a modular MPI code for partial differential equations and particles: multipurpose and multiuser-maintained,” J. Open Source Softw. 6, 2807 (arXiv:2009.08231, ADS, ADS, DOI, HTML, 2021/PCcollab21)
411.  Käpylä, M. J., Álvarez Vizoso, J., Rheinhardt, M., Brandenburg, A., & Singh, N. K.: 2020, “On the existence of shear–current effects in magnetized burgulence,” Astrophys. J. 905, 179 (arXiv:2006.05661, ADS, DOI, 2020/MKapy_etal20)
410.  Roper Pol, A., Mandal, S., Brandenburg, A., Kahniashvili, T., & Kosowsky, A.: 2020, “Numerical Simulations of Gravitational Waves from Early-Universe Turbulence,” Phys. Rev. D 102, 083512 (arXiv:1903.08585, ADS, DOI, HTML, 2020/RopP_etal20b)
409.  Brandenburg, A.: 2020, “Piecewise quadratic growth during the 2019 novel coronavirus epidemic,” Infectious Disease Modelling 5, 681–690 (arXiv:2002.03638, ADS, DOI, HTML, 2020/Bran20cor)
408.  Brandenburg, A.: 2020, “Hall cascade with fractional magnetic helicity in neutron star crusts,” Astrophys. J. 901, 18 (arXiv:2006.12984, ADS, DOI, HTML, 2020/Bran20)
407.  Prabhu, A., Brandenburg, A., Käpylä, M. J., & Lagg, A.: 2020, “Helicity proxies from linear polarisation of solar active regions,” Astron. Astrophys. 641, A46 (arXiv:2001.10884, ADS, DOI, 2020/Prab_etal20)
406.  Asplund, J., Johannesson, G., & Brandenburg, A.: 2020, “On the measurement of handedness in Fermi Large Area Telescope data,” Astrophys. J. 898, 124 (arXiv:2005.13065, ADS, DOI, 2020/Aspl+Joha+Bran20)
405.  Brandenburg, A., Durrer, R., Huang, Y., Kahniashvili, T., Mandal, S., & Mukohyama S.: 2020, “Primordial magnetic helicity evolution with a homogeneous magnetic field from inflation,” Phys. Rev. D 102, 02353 (arXiv:2005.06449, ADS, DOI, HTML, 2020/Bran_etal20Muk)
404.  Brandenburg, A., & Furuya, R. S.: 2020, “Application of a helicity proxy to edge-on galaxies,” Mon. Not. Roy. Astron. Soc. 496, 4749–4759 (arXiv:2003.07284, ADS, DOI, HTML, 2020/Bran+Furu20)
403.  Pusztai, I., Juno, J., Brandenburg, A., TenBarge, J. M., Hakim, A., Francisquez, M., & Sundström, A.: 2020, “Dynamo in weakly collisional nonmagnetized plasmas impeded by Landau damping of magnetic fields,” Phys. Rev. Lett. 124, 255102 (arXiv:2001.11929, ADS, DOI, HTML, 2020/Pusz_etal20)
402.  Brandenburg, A., & Brüggen, M.: 2020, “Hemispheric handedness in the Galactic synchrotron polarization foreground,” Astrophys. J. Lett. 896, L14 (arXiv:2003.14178, ADS, DOI, HTML, 2020/Bran+Brug20)
401.  Käpylä, P. J., Rheinhardt, M., Brandenburg, A., & Käpylä, M. J.: 2020, “Turbulent viscosity and effective magnetic Prandtl number from simulations of isotropically forced turbulence,” Astron. Astrophys. 636, A93 (arXiv:1901.00787, ADS, DOI, 2020/KRBK20)
400.  Brandenburg, A., & Boldyrev, S.: 2020, “The turbulent stress spectrum in the inertial and subinertial ranges,” Astrophys. J. 892, 80 (arXiv:1912.07499, ADS, DOI, 2020/Bran+Bold20)
399.  Brandenburg, A., & Chen, L.: 2020, “The nature of mean-field generation in three classes of optimal dynamos,” J. Plasma Phys. 86, 905860110 (arXiv:1911.01712, ADS, DOI, HTML, 2020/Bran+Chen20)
398.  Brandenburg, A., & Scannapieco, E.: 2020, “Magnetic helicity dissipation and production in an ideal MHD code,” Astrophys. J. 889, 55 (arXiv:1910.06074, ADS, DOI, HTML, 2020/Bran+Scan20)
397.  Li, X.-Y., Brandenburg, A., Svensson, G., Haugen, N. E. L., Mehlig, B., & Rogachevskii, I.: 2020, “Condensational and collisional growth of cloud droplets in a turbulent environment,” J. Atmosph. Sci. 77, 337–353 (arXiv:1807.11859, ADS, DOI, 2020/Li_etal20)
396.  Singh, N. K., Raichur, H., Käpylä, M. J., Rheinhardt, M., Brandenburg, A., & Käpylä, P. J.: 2020, “f-mode strengthening from a localized bipolar subsurface magnetic field,” Geophys. Astrophys. Fluid Dyn. 114, 196–212 (arXiv:1808.08904, ADS, DOI, HTML, 2020/Sing_etal20)
395.  Brandenburg, A., & Das, U.: 2020, “The time step constraint in radiation hydrodynamics,” Geophys. Astrophys. Fluid Dyn. 114, 162–195 (arXiv:1901.06385, ADS, DOI, HTML, 2020/Bran+Das20)
394.  Roper Pol, A., Brandenburg, A., Kahniashvili, T., Kosowsky, A., & Mandal, S.: 2020, “The timestep constraint in solving the gravitational wave equations sourced by hydromagnetic turbulence,” Geophys. Astrophys. Fluid Dyn. 114, 130–161 (arXiv:1807.05479, ADS, HTML, DOI, 2020/RopP_etal20)
393.  Schober, J., Brandenburg, A., & Rogachevskii, I.: 2020, “Chiral fermion asymmetry in high-energy plasma simulations,” Geophys. Astrophys. Fluid Dyn. 114, 106–129 (arXiv:1808.06624, ADS, HTML, DOI, 2020/SBR20)
392.  Qian, C., Wang, C., Liu, J., Brandenburg, A., Haugen, N. E. L., & Liberman, M.: 2020, “Convergence properties of detonation simulations,” Geophys. Astrophys. Fluid Dyn. 114, 58–76 (arXiv:1902.03816, ADS, DOI, HTML, 2020/Qian_etal20)
391.  Käpylä, P. J., Gent, F. A., Olspert, N., Käpylä, M. J., & Brandenburg, A.: 2020, “Sensitivity to luminosity, centrifugal force, and boundary conditions in spherical shell convection,” Geophys. Astrophys. Fluid Dyn. 114, 8–34 (arXiv:1807.09309, ADS, HTML, DOI, 2020/Kapy_etal20)
390.  Brandenburg, A.: 2019, “A global two-scale helicity proxy from $\pi$-ambiguous solar magnetic fields,” Astrophys. J. 883, 119 (arXiv:1906.03877, ADS, DOI, HTML, 2019/Bra19Glo)
389.  Gosain, S., & Brandenburg, A.: 2019, “Spectral magnetic helicity of solar active regions between 2006 and 2017,” Astrophys. J. 882, 80 (arXiv:1902.11273, ADS, HTML, 2019/Gosa+Bran19)
388.  Brandenburg, A.: 2019, “The limited roles of autocatalysis and enantiomeric cross-inhibition in achieving homochirality in dilute systems,” Orig. Life Evol. Biosph. 49, 49–60 (arXiv:1903.07855, ADS, DOI, 2019/Bran19ab)
387.  Brandenburg, A., & Rempel, M.: 2019, “Reversed dynamo at small scales and large magnetic Prandtl number,” Astrophys. J. 879, 57 (arXiv:1903.11869, ADS, DOI, 2019/Bran+Remp19)
386.  Brandenburg, A.: 2019, “Ambipolar diffusion in large Prandtl number turbulence,” Mon. Not. Roy. Astron. Soc. 487, 2673–2684 (arXiv:1903.08976, ADS, DOI, HTML, 2019/Bran19AD)
385.  Käpylä, P. J., Viviani, M., Käpylä, M. J., Brandenburg, A., & Spada, F.: 2019, “Effects of a subadiabatic layer on convection and dynamos in spherical wedge simulations,” Geophys. Astrophys. Fluid Dyn. 113, 149–183 (arXiv:1803.05898, ADS, DOI, 2019/KVKBS19)
384.  Schober, J., Brandenburg, A., Rogachevskii, I., & Kleeorin, N.: 2019, “Energetics of turbulence generated by chiral MHD dynamos,” Geophys. Astrophys. Fluid Dyn. 113, 107–130 (arXiv:1803.06350, ADS, DOI, 2019/SBRK19)
383.  Brandenburg, A., Kahniashvili, T., Mandal, S., Roper Pol, A., Tevzadze, A. G., & Vachaspati, T.: 2019, “Dynamo effect in decaying helical turbulence,” Phys. Rev. Fluids, 4, 024608 (arXiv:1710.01628, ADS, DOI, 2019/Bran_etal192019/Bran_etal19_ad
382.  Li, X.-Y., Svensson, G., Brandenburg, A., & Haugen, N. E. L.: 2019, “Cloud droplet growth due to supersaturation fluctuations in stratiform clouds,” Atmosph. Chem. Phys. 19, 639–648 (arXiv:1806.10529, ADS, HTML, DOI, 2019/Li_etal19)
381.  Bracco, A., Candelaresi, S., Del Sordo, F., & Brandenburg, A.: 2019, “Is there a left-handed magnetic field in the solar neighborhood? Exploring helical magnetic fields in the interstellar medium through dust polarization power spectra,” Astron. Astrophys. 621, A97 (arXiv:1807.10188, ADS, DOI, 2019/Brac_etal19)
380.  Brandenburg, A., Bracco, A., Kahniashvili, T., Mandal, S., Roper Pol, A., Petrie, G. J. D., & Singh, N. K.: 2019, “E and B polarizations from inhomogeneous and solar surface turbulence,” Astrophys. J. 870, 87 (arXiv:1807.11457, ADS, DOI, 2019/Bran_etal19EB)
379.  Losada, I. R., Warnecke, J., Brandenburg, A., Kleeorin, N., & Rogachevskii, I.: 2019, “Magnetic bipoles in rotating turbulence with coronal envelope,” Astron. Astrophys. 621, A61 (arXiv:1803.04446, ADS, DOI, 2019/LWBKR19)
378.  Brandenburg, A.: 2018, “Magnetic helicity and fluxes in an inhomogeneous alpha squared dynamo,” Astron. Nachr. 339, 631–640 (arXiv:1901.07552, ADS, DOI, 2018/Bran18AN)
377.  Brandenburg, A., & Oughton, S.: 2018, “Cross-helically forced and decaying hydromagnetic turbulence,” Astron. Nachr. 339, 641–646 (arXiv:1901.05875, ADS, DOI, 2018/Bran+Ough18)
376.  Bourdin, Ph.-A., & Brandenburg, A.: 2018, “Magnetic helicity from multipolar regions on the solar surface,” Astrophys. J. 869, 3 (arXiv:1804.04160, ADS, DOI, 2018/Bour+Bran18)
375.  Bourdin, Ph.-A., Singh, N. K., & Brandenburg, A.: 2018, “Magnetic helicity reversal in the corona at small plasma beta,” Astrophys. J. 869, 2 (arXiv:1804.04153, ADS, DOI, 2018/Bour_etal18)
374.  Rogachevskii, I., Kleeorin, N., & Brandenburg, A.: 2018, “Compressibility effects in turbulent MHD and passive scalar transport: mean-field theory,” J. Plasma Phys. 84, 735840502 (arXiv:1801.01804, ADS, DOI, 2018/Roga+Klee+Bran18)
373.  Li, X.-Y., Brandenburg, A., Svensson, G., Haugen, N. E. L., Mehlig, B., & Rogachevskii, I.: 2018, “Effect of turbulence on collisional growth of cloud droplets,” J. Atmosph. Sci. 75, 3469–3487 (arXiv:1711.10062, ADS, DOI, 2018/Li_etal18)
372.  Viviani, M., Warnecke, J., Käpylä, M. J., Käpylä, P. J., Olspert, N., Cole-Kodikara, E. M., Lehtinen, J. J., & Brandenburg, A.: 2018, “Transition from axi- to nonaxisymmetric dynamo modes in spherical convection models of solar-like stars,” Astron. Astrophys. 616, A160 (arXiv:1710.10222, ADS, DOI, 2018/Vivi_etal18)
371.  Brandenburg, A.: 2018, “Advances in mean-field dynamo theory and applications to astrophysical turbulence,” J. Plasma Phys. 84, 735840404 (arXiv:1801.05384, ADS, DOI, 2018/Bran18)
370.  Singh, N. K., Käpylä, M. J., Brandenburg, A., Käpylä, P. J., Lagg, A., & Virtanen, I.: 2018, “Bihelical spectrum of solar magnetic helicity and its evolution,” Astrophys. J. 863, 182 (arXiv:1804.04994, ADS, DOI, 2018/Sing_etal18)
369.  Brandenburg, A., Durrer, R., Kahniashvili, T., Mandal, S., & Yin, W. W.: 2018, “Statistical properties of scale-invariant helical magnetic fields and applications to cosmology,” J. Cosmol. Astropart. Phys. 08, 034 (arXiv:1804.01177, ADS, DOI, 2018/BDKMY18)
368.  Zhang, H., & Brandenburg, A.: 2018, “Solar kinetic energy and cross helicity spectra,” Astrophys. J. Lett. 862, L17 (arXiv:1804.10321, ADS, DOI, 2018/Zhan+Bran18)
367.  Brandenburg, A., Haugen, N. E. L., Li, X.-Y., & Subramanian, K.: 2018, “Varying the forcing scale in low Prandtl number dynamos,” Mon. Not. Roy. Astron. Soc. 479, 2827–2833 (arXiv:1805.01249, ADS, DOI, 2018/Bran_Haug_Li_Subr18)
366.  Käpylä, P. J., Käpylä, M. J., & Brandenburg, A.: 2018, “Small-scale dynamos in simulations of stratified turbulent convection,” Astron. Nachr. 339, 127–133 (arXiv:1802.09607, ADS, DOI, ADS, 2018/Kapy+Kapy+Bran18)
365.  Brandenburg, A., & Chatterjee, P.: 2018, “Strong nonlocality variations in a spherical mean-field dynamo,” Astron. Nachr. 339, 118–126 (arXiv:1802.04231, ADS, DOI, HTML, 2018/Bran+Chat18)
364.  Schober, J., Rogachevskii, I., Brandenburg, A., Boyarsky, A., Fröhlich, J., Ruchayskiy, O., & Kleeorin, N.: 2018, “Laminar and turbulent dynamos in chiral magnetohydrodynamics. II. Simulations,” Astrophys. J. 858, 124 (arXiv:1711.09733, ADS, DOI, 2018/Scho_etal18)
363.  Bushby, P. J., Käpylä, P. J., Masada, Y., Brandenburg, A., Favier, B., Guervilly, C., & Käpylä, M. J.: 2018, “Large-scale dynamos in rapidly rotating plane layer convection,” Astron. Astrophys. 612, A97 (arXiv:1710.03174, ADS, DOI, 2018/Bushby_etal18)
362.  Brandenburg, A., & Giampapa, M. S.: 2018, “Enhanced stellar activity for slow antisolar differential rotation?” Astrophys. J. Lett. 855, L22 (arXiv:1802.08689, ADS, DOI, 2018/Bran+Giam18)
361.  Perri, B., & Brandenburg, A.: 2018, “Spontaneous flux concentrations from the negative effective magnetic pressure instability beneath a radiative stellar surface,” Astron. Astrophys. 609, A99 (arXiv:1701.03018, ADS, DOI, 2018/Perr+Bran18)
360.  Warnecke, J., Rheinhardt, M., Käpylä, P. J., Käpylä, M. J., & Brandenburg, A.: 2018, “Turbulent transport coefficients in spherical wedge dynamo simulations of solar-like stars,” Astron. Astrophys. 609, A51 (arXiv:1601.03730, ADS, DOI, 2018/Warn_etal18)
359.  Brandenburg, A., Kahniashvili, T., Mandal, S., Roper Pol, A., Tevzadze, A. G., & Vachaspati, T.: 2017, “Evolution of hydromagnetic turbulence from the electroweak phase transition,” Phys. Rev. D 96, 123528 (arXiv:1711.03804, ADS, DOI, 2017/Bran_etal17b)
358.  Kahniashvili, T., Brandenburg, A., Durrer, R., Tevzadze, A. G., & Yin, W.: 2017, “Scale-invariant helical magnetic field evolution and the duration of inflation,” J. Cosmol. Astropart. Phys. 12, 002 (arXiv:1610.03139, ADS, DOI, 2017/Kahn_etal17)
357.  Singh, N. K., Rogachevskii, I., & Brandenburg, A.: 2017, “Enhancement of small-scale turbulent dynamo by large-scale shear,” Astrophys. J. Lett. 850, L8 (arXiv:1610.07215, ADS, DOI, 2017/Sing+Roga+Bran17)
356.  Brandenburg, A., Schober, J., & Rogachevskii, I.: 2017, “The contribution of kinetic helicity to turbulent magnetic diffusivity,” Astron. Nachr. 338, 790–793 (arXiv:1706.03421, ADS, DOI, 2017/Bran+Scho+Roga17)
355.  Rogachevskii, I., Ruchayskiy, O., Boyarsky, A., Fröhlich, J., Kleeorin, N., Brandenburg, A., & Schober, J.: 2017, “Laminar and turbulent dynamos in chiral magnetohydrodynamics. I. Theory,” Astrophys. J. 846, 153 (arXiv:1705.00378, ADS, DOI, 2017/Roga_etal17)
354.  Cameron, R. H., Dikpati, M., & Brandenburg, A.: 2017, “The global solar dynamo,” Spa. Sci. Rev. 210, 367–395 (arXiv:1602.01754, ADS, DOI, 2017/Came+Dikp+Bran17)
353.  Käpylä, P. J., Rheinhardt, M., Brandenburg, A., Arlt, R., Käpylä, M. J., Lagg, A., Olspert, N., & Warnecke, J.: 2017, “Extended subadiabatic layer in simulations of overshooting convection,” Astrophys. J. Lett. 845, L23 (arXiv:1703.06845, ADS, DOI, 2017/Kapy_etal17b)
352.  Brandenburg, A., Schober, J., Rogachevskii, I., Kahniashvili, T., Boyarsky, A., Fröhlich, J., Ruchayskiy, O., & Kleeorin, N.: 2017, “The turbulent chiral magnetic cascade in the early universe,” Astrophys. J. Lett. 845, L21 (arXiv:1707.03385, ADS, DOI, 2017/Bran_etal17)
351.  Brandenburg, A., Ashurova, M. B., & Jabbari, S.: 2017, “Compensating Faraday depolarization by magnetic helicity in the solar corona,” Astrophys. J. Lett. 845, L15 (arXiv:1706.09540, ADS, DOI, 2017/Bran+Ashu+Jabb17)
350.  Brandenburg, A., Mathur, S., & Metcalfe, T. S.: 2017, “Evolution of coexisting long and short period stellar activity cycles,” Astrophys. J. 845, 79 (arXiv:1704.09009, ADS, DOI, 2017/Bran+Math+Metc17)
349.  Li, X.-Y., Brandenburg, A., Haugen, N. E. L., & Svensson, G.: 2017, “Eulerian and Lagrangian approaches to multidimensional condensation and collection,” J. Adv. Model. Earth Syst. 9, 1116–1137 (arXiv:1604.08169, ADS, DOI, HTML, 2017/Li_etal17)
348.  Jabbari, S., Brandenburg, A., Kleeorin, N., & Rogachevskii, I.: 2017, “Sharp magnetic structures from dynamos with density stratification,” Mon. Not. Roy. Astron. Soc. 467, 2753–2765 (arXiv:1607.08897, ADS, DOI, 2017/Jabb_etal17)
347.  Käpylä, P. J., Käpylä, M. J., Olspert, N., Warnecke, J., & Brandenburg, A.: 2017, “Convection-driven spherical shell dynamos at varying Prandtl numbers,” Astron. Astrophys. 599, A4 (arXiv:1605.05885, ADS, DOI, 2017/Kapy_etal17)
346.  Brandenburg, A.: 2017, “Analytic solution of an oscillatory migratory alpha squared stellar dynamo,” Astron. Astrophys. 598, A117 (arXiv:1611.02671, ADS, DOI, 2017/Bran17)
345.  Brandenburg, A., Petrie, G. J. D., & Singh, N. K.: 2017, “Two-scale analysis of solar magnetic helicity,” Astrophys. J. 836, 21 (arXiv:1610.05410, ADS, DOI, 2017/Bran+Petr+Sing17)
344.  Brandenburg, A., & Kahniashvili, T.: 2017, “Classes of hydrodynamic and magnetohydrodynamic turbulent decay,” Phys. Rev. Lett. 118, 055102 (arXiv:1607.01360, ADS, DOI, 2017/Bran+Kahn172017/Bran+Kahn17_supp
343.  Brandenburg, A., Rogachevskii, I., & Kleeorin, N.: 2016, “Magnetic concentrations in stratified turbulence: the negative effective magnetic pressure instability,” New J. Phys. 18, 125011 (arXiv:1610.03459, ADS, DOI, 2016/BRK16)
342.  Warnecke, J., Käpylä, P. J., Käpylä, M. J., & Brandenburg, A.: 2016, “Influence of a coronal envelope as a free boundary to global convective dynamo simulations,” Astron. Astrophys. 596, A115 (arXiv:1503.05251, ADS, DOI, 2016/Warn_Kapy_Kapy_Bran16)
341.  Singh, N. K., Raichur, H., & Brandenburg, A.: 2016, “High-wavenumber solar f-mode strengthening prior to active region formation,” Astrophys. J. 832, 120 (arXiv:1601.00629, ADS, DOI, 2016/Sing+Raic+Bran16)
340.  Brandenburg, A.: 2016, “Stellar mixing length theory with entropy rain,” Astrophys. J. 832, 6 (arXiv:1504.03189, ADS, DOI, 2016/B16)
339.  Cole, E., Brandenburg, A., Käpylä, P. J., & Käpylä, M. J.: 2016, “Robustness of oscillatory alpha squared dynamos in spherical wedges,” Astron. Astrophys. 593, A134 (arXiv:1601.05246, ADS, DOI, 2016/Cole_etal16)
338.  Kahniashvili, T., Brandenburg, A., & Tevzadze, A. G.: 2016, “The evolution of primordial magnetic fields since their generation,” Phys. Scr. 91, 104008 (arXiv:1507.00510, ADS, DOI, 2016/Kahn+Bran+Tevz16)
337.  Bhat, P., Subramanian, K., & Brandenburg, A.: 2016, “A unified large/small-scale dynamo in helical turbulence,” Mon. Not. Roy. Astron. Soc. 461, 240–247 (arXiv:1508.02706, ADS, DOI, 2016/Bhat_etal16)
336.  Jabbari, S., Brandenburg, A., Mitra, D., Kleeorin, N., & Rogachevskii, I.: 2016, “Turbulent reconnection of magnetic bipoles in stratified turbulence,” Mon. Not. Roy. Astron. Soc. 459, 4046–4056 (arXiv:1601.08167, ADS, DOI, 2016/Jabb_etal16)
335.  Warnecke, J., Losada, I. R., Brandenburg, A., Kleeorin, N., & Rogachevskii, I.: 2016, “Bipolar region formation in stratified two-layer turbulence,” Astron. Astrophys. 589, A125 (arXiv:1502.03799, ADS, DOI, 2016/Warn_etal16a)
334.  Käpylä, M. J., Käpylä, P. J., Olspert, N., Brandenburg, A., Warnecke, J., Karak, B. B., & Pelt, J.: 2016, “Multiple dynamo modes as a mechanism for long-term solar activity variations,” Astron. Astrophys. 589, A56 (arXiv:1507.05417, ADS, DOI, HTML, 2016/MKapy_etal16)
333.  Käpylä, P. J., Brandenburg, A., Kleeorin, N., Käpylä, M. J., & Rogachevskii, I.: 2016, “Magnetic flux concentrations from turbulent stratified convection,” Astron. Astrophys. 588, A150 (arXiv:1511.03718, ADS, DOI, 2016/Kapy_etal16)
332.  Yokoi, N., & Brandenburg, A.: 2016, “Large-scale flow generation by inhomogeneous helicity,” Phys. Rev. E 93, 033125 (arXiv:1511.08983, ADS, DOI, 2016/Yoko+Bran16)
331.  Zhang, H., Brandenburg, A., & Sokoloff, D. D.: 2016, “Evolution of magnetic helicity and energy spectra of solar active regions,” Astrophys. J. 819, 146 (arXiv:1503.00846, ADS, DOI, 2016/Zhang_etal16)
330.  Brandenburg, A.: 2016, “A new twist in simulating solar flares,” Physics 9, 26 (arXiv:1603.01917, ADS, DOI, 2016/Bran16)
329.  Bhat, P., & Brandenburg, A.: 2016, “Hydraulic effects in a radiative atmosphere with ionization,” Astron. Astrophys. 587, A90 (arXiv:1411.6610, ADS, DOI, 2016/Bhat+Bran16)
328.  Karak, B. B., & Brandenburg, A.: 2016, “Is the small-scale magnetic field correlated with the dynamo cycle?” Astrophys. J. 816, 28 (arXiv:1505.06632, ADS, DOI, 2016/Kara+Bran16)
327.  Miesch, M., Matthaeus, W., Brandenburg, A., Petrosyan, A., Pouquet, A., Cambon, C., Jenko, F., Uzdensky, D., Stone, J., Tobias, S., Toomre, J., & Velli, M.: 2015, “Large-eddy simulations of magnetohydrodynamic turbulence in space and astrophysics,” Spa. Sci. Rev. 194, 97–137 (arXiv:1505.01808, ADS, DOI, 2015/Miesch_etal15)
326.  Andrievsky, A., Brandenburg, A., Noullez, A., & Zheligovsky, V.: 2015, “Negative magnetic eddy diffusivities from the test-field method and multiscale stability theory,” Astrophys. J. 811, 135 (arXiv:1501.04465, ADS, DOI, 2015/Andr+Bran+Noul+Zhel15)
325.  Jabbari, S., Brandenburg, A., Kleeorin, N., Mitra, D., & Rogachevskii, I.: 2015, “Bipolar magnetic spots from dynamos in stratified spherical shell turbulence,” Astrophys. J. 805, 166 (arXiv:1411.4912, ADS, DOI, 2015/Jabb_etal15)
324.  Karak, B. B., Kitchatinov, L. L., & Brandenburg, A.: 2015, “Hysteresis between distinct modes of turbulent dynamos,” Astrophys. J. 803, 95 (arXiv:1411.0485, ADS, DOI, 2015/Kara+Kit+Bran15)
323.  Karak, B. B., Käpylä, M. J., Käpylä, P. J., Brandenburg, A., Olspert, N., & Pelt, J.: 2015, “Magnetically controlled stellar differential rotation near the transition from solar to anti-solar profiles,” Astron. Astrophys. 576, A26 (arXiv:1407.0984, ADS, DOI, 2015/Kara_etal15)
322.  Brandenburg, A., Kahniashvili, T., & Tevzadze, A. G.: 2015, “Nonhelical inverse transfer of a decaying turbulent magnetic field,” Phys. Rev. Lett. 114, 075001 (arXiv:1404.2238, ADS, DOI, 2015/Bran+Kahn+Tevz152015/Bran+Kahn+Tevz15_supp
321.  Singh, N. K., Brandenburg, A., Chitre, S. M., & Rheinhardt, M.: 2015, “Properties of $p$- and $f$-modes in hydromagnetic turbulence,” Mon. Not. Roy. Astron. Soc. 447, 3708–3722 (arXiv:1404.3246, ADS, DOI, 2015/Sing+Bran+Chit+Rhei15)
320.  Brandenburg, A., Hubbard, A., & Käpylä, P. J.: 2015, “Dynamical quenching with non-local alpha and downward pumping,” Astron. Nachr. 336, 91–96 (arXiv:1412.0997, ADS, DOI, 2015/Bran+Hubb+Kapy15)
319.  Barekat, A., & Brandenburg, A.: 2014, “Near-polytropic stellar simulations with a radiative surface,” Astron. Astrophys. 571, A68 (arXiv:1308.1660, ADS, DOI, 2014/Bare+Bran14)
318.  Warnecke, J., Käpylä, P. J., Käpylä, M. J., & Brandenburg, A.: 2014, “On the cause of solar-like equatorward migration in global convective dynamo simulations,” Astrophys. J. Lett. 796, L12 (arXiv:1409.3213, ADS, DOI, 2014/Warn_etal14)
317.  Subramanian, K., & Brandenburg, A.: 2014, “Traces of large-scale dynamo action in the kinematic stage,” Mon. Not. Roy. Astron. Soc. 445, 2930–2940 (arXiv:1408.4416, ADS, DOI, 2014/Subm+Bran14)
316.  Singh, N. K., Brandenburg, A., & Rheinhardt, M.: 2014, “Fanning out of the solar $f$-mode in presence of nonuniform magnetic fields?” Astrophys. J. Lett. 795, L8 (arXiv:1407.0356, ADS, DOI, 2014/Sing+Bran+Rhei14)
315.  Käpylä, P. J., Käpylä, M. J., & Brandenburg, A.: 2014, “Confirmation of bistable stellar differential rotation profiles,” Astron. Astrophys. 570, A43 (arXiv:1401.2981, ADS, DOI, 2014/Kapy+Kapy+Bran14)
314.  Karak, B. B., Rheinhardt, M., Brandenburg, A., Käpylä, P. J., & Käpylä, M. J.: 2014, “Quenching and anisotropy of hydromagnetic turbulent transport,” Astrophys. J. 795, 16 (arXiv:1406.4521, ADS, DOI, 2014/Kara_etal14)
313.  Mitra, D., Brandenburg, A., Kleeorin, N., Rogachevskii, I.: 2014, “Intense bipolar structures from stratified helical dynamos,” Mon. Not. Roy. Astron. Soc. 445, 761–769 (arXiv:1404.3194, ADS, DOI, 2014/Mitr+Bran+Klee+Roga14)
312.  Jabbari, S., Brandenburg, A., Losada, I. R., Kleeorin, N., & Rogachevskii, I.: 2014, “Magnetic flux concentrations from dynamo-generated fields,” Astron. Astrophys. 568, A112 (arXiv:1401.6107, ADS, DOI, 2014/Jabb_etal14)
311.  Candelaresi, S., Hillier, A., Maehara, H., Brandenburg, A., & Shibata, K.: 2014, “Superflare occurrence and energies on G-, K- and M-type dwarfs,” Astrophys. J. 792, 67 (arXiv:1405.1453, ADS, DOI, 2014/Cand_etal14)
310.  Modestov, M., Bychkov, V., Brodin, G., Marklund, M., & Brandenburg, A.: 2014, “Evolution of magnetic field generated by the Kelvin-Helmholtz instability,” Phys. Plasmas 21, 072126 (arXiv:1402.2761, ADS, DOI, 2014/Mode_etal14)
309.  Väisälä, M. S., Brandenburg, A., Mitra, D., Käpylä, P. J., & Mantere, M. J.: 2014, “Quantifying the effect of turbulent magnetic diffusion on the growth rate of the magneto-rotational instability,” Astron. Astrophys. 567, A139 (arXiv:1310.3157, ADS, DOI, 2014/Vaisala_etal14)
308.  Brandenburg, A.: 2014, “Magnetic Prandtl number dependence of the kinetic-to-magnetic dissipation ratio,” Astrophys. J. 791, 12 (arXiv:1404.6964, ADS, DOI, 2014/B14)
307.  Mitra, D., Brandenburg, A., Dasgupta, D., Niklasson, E., & Ram, A.: 2014, “Particle energization through time-periodic helical magnetic fields,” Phys. Rev. E 89, 042919 (arXiv:1306.0151, ADS, DOI, 2014/Mitr+Bran+Dasg+Nilk+Ram14)
306.  Rheinhardt, M., Devlen, E., Rädler, K.-H., & Brandenburg, A.: 2014, “Mean-field dynamo action from delayed transport,” Mon. Not. Roy. Astron. Soc. 441, 116–126 (arXiv:1401.5026, ADS, DOI, 2014/Rhei+Devl+Radl+Bran14)
305.  Brandenburg, A., & Stepanov, R.: 2014, “Faraday signature of magnetic helicity from reduced depolarization,” Astrophys. J. 786, 91 (arXiv:1401.4102, ADS, DOI, 2014/Bran+Step14)
304.  Losada, I. R., Brandenburg, A., Kleeorin, N., & Rogachevskii, I.: 2014, “Magnetic flux concentrations in a polytropic atmosphere,” Astron. Astrophys. 564, A2 (arXiv:1307.4945, ADS, DOI, 2014/Losa_etal14)
303.  Zhang, H., Brandenburg, A., & Sokoloff, D. D.: 2014, “Magnetic helicity and energy spectra of a solar active region,” Astrophys. J. Lett. 784, L45 (arXiv:1311.2432, ADS, DOI, 2014/Zhang_etal14)
302.  Rüdiger, G., & Brandenburg, A.: 2014, “The alpha effect in a turbulent liquid-metal plane Couette flow,” Phys. Rev. E 89, 033009 (arXiv:1201.0652, ADS, DOI, 2014/Rue+Bran14)
301.  Brandenburg, A., Gressel, O., Jabbari, S., Kleeorin, N., & Rogachevskii, I.: 2014, “Mean-field and direct numerical simulations of magnetic flux concentrations from vertical field,” Astron. Astrophys. 562, A53 (arXiv:1309.3547, ADS, DOI, 2014/BGJKR14)
300.  Cole, E., Käpylä, P. J., Mantere, M. J., & Brandenburg, A.: 2014, “An azimuthal dynamo wave in spherical shell convection,” Astrophys. J. Lett. 780, L22 (arXiv:1309.6802, ADS, DOI, 2014/Cole_etal14)
299.  Warnecke, J., Käpylä, P. J., Mantere, M. J., & Brandenburg, A.: 2013, “Spoke-like differential rotation in a convective dynamo with a coronal envelope,” Astrophys. J. 778, 141 (arXiv:1301.2248, ADS, DOI, 2013/Warn_etal13b)
298.  Käpylä, P. J., Mantere, M. J., Cole, E., Warnecke, J., & Brandenburg, A.: 2013, “Effects of enhanced stratification on equatorward dynamo wave propagation,” Astrophys. J. 778, 41 (arXiv:1301.2595, ADS, DOI, 2013/Kapy_etal13)
297.  Brandenburg, A., & Lazarian, A.: 2013, “Astrophysical hydromagnetic turbulence,” Spa. Sci. Rev. 178, 163–200 (arXiv:1307.5496, ADS, DOI, 2013/Bran+Laza13)
296.  Bykov, A. M., Brandenburg, A., Malkov, M. A., & Osipov, S. M.: 2013, “Microphysics of cosmic ray driven plasma instabilities,” Spa. Sci. Rev. 178, 201–232 (arXiv:1304.7081, ADS, DOI, 2013/Bykov_etal13)
295.  Warnecke, J., Losada, I. R., Brandenburg, A., Kleeorin, N., & Rogachevskii, I.: 2013, “Bipolar magnetic structures driven by stratified turbulence with a coronal envelope,” Astrophys. J. Lett. 777, L37 (arXiv:1308.1080, ADS, DOI, 2013/Warn_etal13a)
294.  Brandenburg, A., Kleeorin, N., & Rogachevskii, I.: 2013, “Self-assembly of shallow magnetic spots through strongly stratified turbulence,” Astrophys. J. Lett. 776, L23 (arXiv:1306.4915, ADS, DOI, 2013/BKR13)
293.  Rempel, E. L., Chian, A. C.-L., Brandenburg, A., Muñoz, P. R., & Shadden, S. C.: 2013, “Coherent structures and the saturation of a nonlinear dynamo,” J. Fluid Mech. 729, 309–329 (arXiv:1210.6637, ADS, DOI, 2013/Remp_etal13)
292.  Kemel, K., Brandenburg, A., Kleeorin, N., Mitra, D., & Rogachevskii, I.: 2013, “Active region formation through the negative effective magnetic pressure instability,” Solar Phys. 287, 293–313 (arXiv:1203.1232, ADS, DOI, 2013/Kem+Bran+Klee+Mitr+Roga13)
291.  Jabbari, S., Brandenburg, A., Kleeorin, N., Mitra, D., & Rogachevskii, I.: 2013, “Surface flux concentrations in a spherical alpha squared dynamo,” Astron. Astrophys. 556, A106 (arXiv:1302.5841, ADS, DOI, 2013/Jabb_etal13)
290.  Losada, I. R., Brandenburg, A., Kleeorin, N., & Rogachevskii, I.: 2013, “Competition of rotation and stratification in flux concentrations,” Astron. Astrophys. 556, A83 (arXiv:1212.4077, ADS, DOI, 2013/Losa_etal13)
289.  Mitra, D., Wettlaufer, J. S., & Brandenburg, A.: 2013, “Can planetesimals form by collisional fusion?” Astrophys. J. 773, 120 (arXiv:1306.3672, ADS, DOI, 2013/Mitr+Wett+Bran13)
288.  Kemel, K., Brandenburg, A., Kleeorin, N., & Rogachevskii, I.: 2013, “Non-uniformity effects in the negative effective magnetic pressure instability,” Phys. Scr. T155, 014027 (arXiv:1208.0517, ADS, DOI, 2013/Kem+Bran+Klee+Roga13)
287.  Svedin, A., Cuéllar, M. C., & Brandenburg, A.: 2013, “Data assimilation for stratified convection,” Mon. Not. Roy. Astron. Soc. 433, 2278–2285 (arXiv:1207.7314, ADS, DOI, 2013/Sved_etal13)
286.  Devlen, E., Brandenburg, A., & Mitra, D.: 2013, “A mean field dynamo from negative eddy diffusivity,” Mon. Not. Roy. Astron. Soc. 432, 1651–1657 (arXiv:1212.2626, ADS, DOI, 2013/Devl+Bran+Mitr13)
285.  Kahniashvili, T., Tevzadze, A. G., Brandenburg, A., & Neronov, A.: 2013, “Evolution of primordial magnetic fields from phase transitions,” Phys. Rev. D 87, 083007 (arXiv:1212.0596, ADS, DOI, 2013/Kahn_etal13)
284.  Candelaresi, S., & Brandenburg, A.: 2013, “Kinetic helicity needed to drive large-scale dynamos” Phys. Rev. E 87, 043104 (arXiv:1208.4529, ADS, DOI, 2013/Cand+Bran13)
283.  Käpylä, P. J., Mantere, M. J., & Brandenburg, A.: 2013, “Oscillatory large-scale dynamos from Cartesian convection simulations,” Geophys. Astrophys. Fluid Dyn. 107, 244–257 (arXiv:1111.6894, ADS, DOI, 2013/Kapy+Mant+Bran13)
282.  Brandenburg, A., & Rädler, K.-H.: 2013, “Yoshizawa's cross-helicity effect and its quenching,” Geophys. Astrophys. Fluid Dyn. 107, 207–217 (arXiv:1112.1237, ADS, DOI, 2013/Bran+Radl13)
281.  Del Sordo, F., Guerrero, G., & Brandenburg, A.: 2013, “Turbulent dynamo with advective magnetic helicity flux,” Mon. Not. Roy. Astron. Soc. 429, 1686–1694 (arXiv:1205.3502, ADS, DOI, 2013/DSor+Guer+Bran13)
280.  Brandenburg, A., Gressel, O., Käpylä, P. J., Kleeorin, N., Mantere, M. J., Rogachevskii, I.: 2013, “New scaling for the alpha effect in slowly rotating turbulence,” Astrophys. J. 762, 127 (arXiv:1208.5004, ADS, DOI, 2013/BGKKMR13)
279.  Losada, I. R., Brandenburg, A., Kleeorin, N., Mitra, D., & Rogachevskii, I.: 2012, “Rotational effects on the negative magnetic pressure instability,” Astron. Astrophys. 548, A49 (arXiv:1207.5392, ADS, DOI, 2012/Losa_etal12)
278.  Kahniashvili, T., Brandenburg, A., Campanelli, L., Ratra, B., & Tevzadze, A. G.: 2012, “Evolution of inflation-generated magnetic field through phase transitions,” Phys. Rev. D 86, 103005 (arXiv:1206.2428, ADS, DOI, 2012/Kahn_etal12)
277.  Tevzadze, A. G., Kisslinger, L., Brandenburg, A., & Kahniashvili, T.: 2012, “Magnetic fields from QCD phase transitions,” Astrophys. J. 759, 54 (arXiv:1207.0751, ADS, DOI, 2012/Tevz_etal12)
276.  Warnecke, J., Käpylä, P. J., Mantere, M. J., & Brandenburg, A.: 2012, “Ejections of magnetic structures above a spherical wedge driven by a convective dynamo with differential rotation,” Solar Phys. 280, 299–319 (arXiv:1112.0505, ADS, DOI, 2012/Warn+Kapy+Mant+Bran12)
275.  Kemel, K., Brandenburg, A., Kleeorin, N., Mitra, D., & Rogachevskii, I.: 2012, “Spontaneous formation of magnetic flux concentrations in stratified turbulence,” Solar Phys. 280, 321–333 (arXiv:1112.0279, ADS, DOI, 2012/Kem+Bran+Klee+Mitr+Roga12)
274.  Haugen, N. E. L., Kleeorin, N., Rogachevskii, I., & Brandenburg, A.: 2012, “Detection of the phenomenon of turbulent thermal diffusion in numerical simulations,” Phys. Fluids 24, 075106 (arXiv:1101.4188, ADS, DOI, 2012/HKRB12)
273.  Brandenburg, A., Sokoloff, D., & Subramanian, K.: 2012, “Current status of turbulent dynamo theory: From large-scale to small-scale dynamos,” Spa. Sci. Rev. 169, 123–157 (arXiv:1203.6195, ADS, DOI, 2012/Bran+Sok+Sub12)
272.  Warnecke, J., Brandenburg, A., & Mitra, D.: 2012, “Magnetic twist: a source and property of space weather,” J. Spa. Weather Spa. Clim. 2, A11 (arXiv:1203.0959, ADS, DOI, 2012/Warn+Bran+Mitra12)
271.  Käpylä, P. J., Mantere, M. J., & Brandenburg, A.: 2012, “Cyclic magnetic activity due to turbulent convection in spherical wedge geometry,” Astrophys. J. Lett. 755, L22 (arXiv:1205.4719, ADS, DOI, 2012/Kapy+Mant+Bran12)
270.  Bonanno, A., Brandenburg, A., Del Sordo, F., & Mitra, D.: 2012, “Breakdown of chiral symmetry during saturation of the Tayler instability,” Phys. Rev. E 86, 016313 (arXiv:1204.0081, ADS, DOI, 2012/Bona+Bran+DSor+Mit12)
269.  Snellman, J. E., Rheinhardt, M., Käpylä, P. J., Mantere, M. J., & Brandenburg, A.: 2012, “Mean-field closure parameters for passive scalar turbulence,” Phys. Scr. 86, 018406 (arXiv:1112.4777, ADS, DOI, 2012/Snell_etal12b)
268.  Rempel, E. L., Chian, A. C.-L., & Brandenburg, A.: 2012, “Lagrangian chaos in an ABC-forced nonlinear dynamo,” Phys. Scr. 86, 018405 (arXiv:1201.4324, ADS, DOI, 2012/Remp+Chian+Bran12)
267.  Rogachevskii, I., Kleeorin, N., Brandenburg, A., & Eichler, D.: 2012, “Cosmic-ray current-driven turbulence and mean-field dynamo effect,” Astrophys. J. 753, 6 (arXiv:1204.4246, ADS, DOI, 2012/Roga+Klee+Bran+Eich12)
266.  Käpylä, P. J., Brandenburg, A., Kleeorin, N., Mantere, M. J., & Rogachevskii, I.: 2012, “Negative effective magnetic pressure in turbulent convection,” Mon. Not. Roy. Astron. Soc. 422, 2465–2473 (arXiv:1104.4541, ADS, DOI, 2012/Kapy_etal12)
265.  Brandenburg, A., Kemel, K., Kleeorin, N., & Rogachevskii, I.: 2012, “The negative effective magnetic pressure in stratified forced turbulence,” Astrophys. J. 749, 179 (arXiv:1005.5700, ADS, DOI, 2012/BKKR12)
264.  Kitchatinov, L. L., & Brandenburg, A.: 2012, “Transport of angular momentum and chemical species by anisotropic mixing in stellar radiative interiors,” Astron. Nachr. 333, 230–236 (arXiv:1201.2484, ADS, DOI, 2012/Kit+Bran12)
263.  Chan, C. K., Mitra, D., & Brandenburg, A.: 2012, “Dynamics of saturated energy condensation in two-dimensional turbulence,” Phys. Rev. E 85, 036315 (arXiv:1109.6937, ADS, DOI, 2012/Chan+Mitr+Bran12)
262.  Dosopoulou, F., Del Sordo, F., Tsagas, C. G., & Brandenburg, A.: 2012, “Vorticity production and survival in viscous and magnetized cosmologies,” Phys. Rev. D 85, 063514 (arXiv:1112.6164, ADS, DOI, 2012/Doso_etal12)
261.  Brandenburg, A., & Petrosyan, A.: 2012, “Reynolds number dependence of kinetic helicity decay in linearly forced turbulence,” Astron. Nachr. 333, 195–201 (arXiv:1012.1464, ADS, DOI, 2012/Bran+Petr12)
260.  Hubbard, A., & Brandenburg, A.: 2012, “Catastrophic quenching in alpha–Omega dynamos revisited,” Astrophys. J. 748, 51 (arXiv:1107.0238, ADS, DOI, 2012/Hubb+Bran12)
259.  Brandenburg, A., Rädler, K.-H., & Kemel, K.: 2012, “Mean-field transport in stratified and/or rotating turbulence,” Astron. Astrophys. 539, A35 (arXiv:1108.2264, ADS, ADS, DOI, 2012/Bran+Radl+Kem12, 2012/Bran+Radl+Kem12_corr)
258.  Mitra, D., & Brandenburg, A.: 2012, “Scaling and intermittency in incoherent alpha–shear dynamo,” Mon. Not. Roy. Astron. Soc. 420, 2170–2177 (arXiv:1107.2419, ADS, DOI, 2012/Mit+Bran12)
257.  Kemel, K., Brandenburg, A., Kleeorin, N., & Rogachevskii, I.: 2012, “Properties of the negative effective magnetic pressure instability,” Astron. Nachr. 333, 95–100 (arXiv:1107.2752, ADS, DOI, 2012/KBKR12)
256.  Guerrero, G., Rheinhardt, M., Brandenburg, A., & Dikpati, M.: 2012, “Plasma flow versus magnetic feature-tracking speeds in the Sun,” Mon. Not. Roy. Astron. Soc. 420, L1–L5 (arXiv:1107.4801, ADS, DOI, 2012/Guer_etal12)
255.  Rheinhardt, M., & Brandenburg, A.: 2012, “Modeling spatio-temporal nonlocality in mean-field dynamos,” Astron. Nachr. 333, 71–77 (arXiv:1110.2891, ADS, DOI, HTML, 2012/Rhei+Bran12)
254.  Snellman, J. E., Brandenburg, A., Käpylä, P. J., & Mantere, M. J.: 2012, “Verification of Reynolds stress parameterizations from simulations,” Astron. Nachr. 333, 78–83 (arXiv:1109.4857, ADS, DOI, 2012/Snell_etal12)
253.  Käpylä, P. J., Mantere, M. J., & Brandenburg, A.: 2011, “Effects of stratification in spherical shell convection,” Astron. Nachr. 332, 883–890 (arXiv:1109.4625, ADS, DOI, 2011/Kapy+Mant+Bran11)
252.  Kemel, K., Brandenburg, A., & Ji, H.: 2011, “A model of driven and decaying magnetic turbulence in a cylinder,” Phys. Rev. E 84, 056407 (arXiv:1106.1129, ADS, DOI, 2011/Kem+Bran+Ji11)
251.  Rogachevskii, I., Kleeorin, N., Käpylä, P. J., & Brandenburg, A.: 2011, “Pumping velocity in homogeneous helical turbulence with shear,” Phys. Rev. E 84, 056314 (arXiv:1105.5785, ADS, DOI, 2011/Roga_etal11)
250.  Plasson, R., Brandenburg, A., Jullien, L., & Bersini, H.: 2011, “Autocatalysis: at the root of self-replication,” Artif. Life 17, 219–236 (DOI, 2011/Plasson_etal11b)
249.  Hubbard, A., Rheinhardt, M. & Brandenburg, A.: 2011, “The fratricide of alpha–Omega dynamos by their alpha squared siblings,” Astron. Astrophys. 535, A48 (arXiv:1102.2617, ADS, DOI, 2011/Hubb+Rhei+Bran11)
248.  Rädler, K.-H., Brandenburg, A., Del Sordo, F., & Rheinhardt, M.: 2011, “Mean-field diffusivities in passive scalar and magnetic transport in irrotational flows,” Phys. Rev. E 84, 4 (arXiv:1104.1613, ADS, DOI, 2011/Radl_etal11)
247.  Brandenburg, A.: 2011, “Nonlinear small-scale dynamos at low magnetic Prandtl numbers,” Astrophys. J. 741, 92 (arXiv:1106.5777, ADS, DOI, 2011/Bran11)
246.  Brandenburg, A., Kemel, K., Kleeorin, N., Mitra, D., & Rogachevskii, I.: 2011, “Detection of negative effective magnetic pressure instability in turbulence simulations,” Astrophys. J. Lett. 740, L50 (arXiv:1109.1270, ADS, DOI, HTML, 2011/Bran_etal11)
245.  Chatterjee, P., Mitra, D., Rheinhardt, M., & Brandenburg, A.: 2011, “Alpha effect due to buoyancy instability of a magnetic layer,” Astron. Astrophys. 534, A46 (arXiv:1011.1218, ADS, DOI, 2011/Chat+Mitra+Rhei+Bran11)
244.  Warnecke, J., Brandenburg, A., & Mitra, D.: 2011, “Dynamo-driven plasmoid ejections above a spherical surface,” Astron. Astrophys. 534, A11 (arXiv:1104.0664, ADS, DOI, 2011/Warn+Bran+Mitra11)
243.  Chatterjee, P., Mitra, D., Brandenburg, A., & Rheinhardt, M.: 2011, “Spontaneous chiral symmetry breaking by hydromagnetic buoyancy,” Phys. Rev. E 84, 025403R (arXiv:1011.1251, ADS, DOI, 2011/Chat+Mitra+Bran+Rhei11)
242.  Bejarano, C., Gomez, D. O., & Brandenburg, A.: 2011, “Shear-driven instabilities in Hall-magnetohydrodynamic plasmas,” Astrophys. J. 737, 62 (arXiv:1012.5284, ADS, DOI, 2011/Beja+Gomez+Bran11)
241.  Candelaresi, S., & Brandenburg, A.: 2011, “Decay of helical and non-helical magnetic knots,” Phys. Rev. E 84, 016406 (arXiv:1103.3518, ADS, DOI, 2011/Cand+Bran11)
240.  Plasson, R., Brandenburg, A., Jullien, L., & Bersini, H.: 2011, “Autocatalyses,” J. Phys. Chem. A 115, 8073–8085 (arXiv:1006.2634, DOI, 2011/Plasson_etal11)
239.  Brandenburg, A.: 2011, “Chandrasekhar-Kendall functions in astrophysical dynamos,” Pramana J. Phys. 77, 67–76 (arXiv:1103.4976, ADS, DOI, 2011/Bran11_chandra)
238.  Käpylä, P. J., Mantere, M. J., Guerrero, G., Brandenburg, A., & Chatterjee, P.: 2011, “Reynolds stress and heat flux in spherical shell convection,” Astron. Astrophys. 531, A162 (arXiv:1010.1250, ADS, DOI, 2011/Kapy_etal11)
237.  Rempel, E. L., Chian, A. C.-L., & Brandenburg, A.: 2011, “Lagrangian coherent structures in a nonlinear dynamo,” Astrophys. J. 735, L9 (arXiv:1011.6327, ADS, DOI, 2011/Remp+Chian+Bran11)
236.  Brandenburg, A., Subramanian, K., Balogh, A., & Goldstein, M. L.: 2011, “Scale dependence of magnetic helicity in the solar wind,” Astrophys. J. 734, 9 (arXiv:1101.1709, ADS, DOI, 2011/BSBG11)
235.  Del Sordo, F., & Brandenburg, A.: 2011, “Vorticity production through rotation, shear, and baroclinicity,” Astron. Astrophys. 528, A145 (arXiv:1008.5281, ADS, DOI, 2011/DSor+Bran11)
234.  Brandenburg, A., & Nordlund, Å.: 2011, “Astrophysical turbulence modeling,” Rep. Prog. Phys. 74, 046901 (arXiv:0912.1340, ADS, DOI, 2011/Bran+Nord11)
233.  Rüdiger, G., Kitchatinov, L. L., & Brandenburg, A.: 2011, “Cross helicity and turbulent magnetic diffusivity in the solar convection zone,” Solar Phys. 269, 3–12 (arXiv:1004.4881, ADS, DOI, 2011/Rue+Kit+Bra11)
232.  Mitra, D., Moss, D., Tavakol, R., & Brandenburg, A.: 2011, “Alleviating alpha quenching by solar wind and meridional flow,” Astron. Astrophys. 526, A138 (arXiv:1008.4226, ADS, DOI, 2011/Mitra_etal11)
231.  Brandenburg, A., Haugen, N. E. L., & Babkovskaia, N.: 2011, “Turbulent front speed in the Fisher equation: dependence on Damköhler number,” Phys. Rev. E 83, 016304 (arXiv:1008.5145, ADS, DOI, 2011/Bran+Hau+Babk11)
230.  Candelaresi, S., Hubbard, A., Brandenburg, A., & Mitra, D.: 2011, “Magnetic helicity transport in the advective gauge family,” Phys. Plasmas 18, 012903 (arXiv:1010.6177, ADS, DOI, 2011/Cand+Hubb+Bran+Mitra11)
229.  Hubbard, A., & Brandenburg, A.: 2011, “Magnetic helicity flux in the presence of shear,” Astrophys. J. 727, 11 (arXiv:1006.3549, ADS, DOI, 2011/Hubb+Bran11)
228.  Brandenburg, A.: 2011, “Dissipation in dynamos at low and high magnetic Prandtl numbers,” Astron. Nachr. 332, 51–56 (arXiv:1010.4805, ADS, DOI, 2011/B11)
227.  Chatterjee, P., Guerrero, G., & Brandenburg, A.: 2011, “Magnetic helicity fluxes in interface and flux transport dynamos,” Astron. Astrophys. 525, A5 (arXiv:1005.5335, ADS, DOI, 2011/Chat+Guer+Bran11)
226.  Babkovskaia, N., Haugen, N. E. L., Brandenburg, A.: 2011, “A high-order public domain code for direct numerical simulations of turbulent combustion,” J. Comp. Phys. 230, 1–12 (arXiv:1005.5301, ADS, DOI, 2011/Babk+Haug+Bran11)
225.  Brandenburg, A., Chatterjee, P., Del Sordo, F., Hubbard, A., Käpylä, P. J., & Rheinhardt, M.: 2010, “Turbulent transport in hydromagnetic flows,” Phys. Scr. T142, 014028 (arXiv:1004.5380, ADS, DOI, 2010/Bran_etal10)
224.  Guerrero, G., Chatterjee, P., & Brandenburg, A.,: 2010, “Shear-driven and diffusive helicity fluxes in alpha–Omega dynamos,” Mon. Not. Roy. Astron. Soc. 409, 1619–1630 (arXiv:1005.4818, ADS, DOI, 2010/Guer+Chat+Bran10)
223.  Chatterjee, P., Brandenburg, A., & Guerrero, G.: 2010, “Can catastrophic quenching be alleviated by separating shear and alpha effect?” Geophys. Astrophys. Fluid Dyn. 104, 591–599 (arXiv:1005.5708, ADS, DOI, 2010/Chat+Bran+Guer10)
222.  Hubbard, A., & Brandenburg, A.: 2010, “Magnetic helicity fluxes in an alpha squared dynamo embedded in a halo,” Geophys. Astrophys. Fluid Dyn. 104, 577–590 (arXiv:1004.4591, ADS, DOI, 2010/Hubb+Bran10)
221.  Warnecke, J., & Brandenburg, A.: 2010, “Surface appearance of dynamo-generated large-scale fields,” Astron. Astrophys. 523, A19 (arXiv:1002.3620, ADS, DOI, 2010/Warn+Bran10)
220.  Rheinhardt, M., & Brandenburg, A.: 2010, “Test-field method for mean-field coefficients with MHD background,” Astron. Astrophys. 520, A28 (arXiv:1004.0689, ADS, DOI, 2010/Rhei+Bran10)
219.  Käpylä, P. J., Korpi, M. J., & Brandenburg, A.: 2010, “Open and closed boundaries in large-scale convective dynamos,” Astron. Astrophys. 518, A22 (arXiv:0911.4120, ADS, DOI, 2010/Kapy+Korp+Bran10b)
218.  Käpylä, P. J., Brandenburg, A., Korpi, M. J., Snellman, J. E., & Narayan, R.: 2010, “Angular momentum transport in convectively unstable shear flows,” Astrophys. J. 719, 67–76 (arXiv:1003.0900, ADS, DOI, 2010/Kapy_etal10b)
217.  Mitra, D., Tavakol, R., Käpylä, P. J., & Brandenburg, A.: 2010, “Oscillatory migrating magnetic fields in helical turbulence in spherical domains,” Astrophys. J. Lett. 719, L1–L4 (arXiv:0901.2364, ADS, DOI, 2010/Mitra_etal10b)
216.  Madarassy, E. J. M., & Brandenburg, A.: 2010, “Calibrating passive scalar transport in shear-flow turbulence,” Phys. Rev. E 82, 016304 (arXiv:0906.3314, ADS, DOI, 2010/Mada+Bran10)
215.  Kahniashvili, T., Brandenburg, A., Tevzadze, A. G., & Ratra, B.: 2010, “Numerical simulations of the decay of primordial magnetic turbulence,” Phys. Rev. D 81, 123002 (arXiv:1004.3084, ADS, DOI, 2010/Kahn_etal10)
214.  Del Sordo, F., Candelaresi, S., & Brandenburg, A.: 2010, “Magnetic field decay of three interlocked flux rings with zero linking number,” Phys. Rev. E 81, 036401 (arXiv:0910.3948, ADS, DOI, 2010/DSor+Cand+Bran10)
213.  Käpylä, P. J., Korpi, M. J., & Brandenburg, A.: 2010, “The alpha effect in rotating convection with sinusoidal shear,” Mon. Not. Roy. Astron. Soc. 402, 1458–1466 (arXiv:0908.2423, ADS, DOI, 2010/Kapy+Korp+Bran10)
212.  Plasson, R., & Brandenburg, A.: 2010, “Homochirality and the need for energy,” Orig. Life Evol. Biosph. 40, 93–110 (arXiv:0908.0658, ADS, DOI, 2010/Plass+Bran10)
211.  Brandenburg, A.: 2010, “Magnetic field evolution in simulations with Euler potentials,” Mon. Not. Roy. Astron. Soc. 401, 347–354 (arXiv:0907.1906, ADS, DOI, 2010/Bran10_euler)
210.  Mitra, D., Candelaresi, S., Chatterjee, P., Tavakol, R., & Brandenburg, A.: 2010, “Equatorial magnetic helicity flux in simulations with different gauges,” Astron. Nachr. 331, 130–135 (arXiv:0911.0969, ADS, DOI, 2010/Mitra_etal10)
209.  Rädler, K.-H., & Brandenburg, A.: 2010, “Mean electromotive force proportional to mean flow in mhd turbulence,” Astron. Nachr. 331, 14–21 (arXiv:0910.0071, ADS, DOI, 2010/Radl+Bran10)
208.  Brandenburg, A., Kleeorin, N., & Rogachevskii, I.: 2010, “Large-scale magnetic flux concentrations from turbulent stresses,” Astron. Nachr. 331, 5–13 (arXiv:0910.1835, ADS, DOI, 2010/Bran+Klee+Roga10)
207.  Käpylä, P. J., Korpi, M. J., Brandenburg, A., Mitra, D., & Tavakol, R.: 2010, “Convective dynamos in spherical wedge geometry,” Astron. Nachr. 331, 73–81 (arXiv:0909.1330, ADS, DOI, 2010/Kapy_etal10)
206.  Hubbard, A., & Brandenburg, A.: 2009, “Memory effects in turbulent transport,” Astrophys. J. 706, 712–726 (arXiv:0811.2561, ADS, DOI, 2009/Hubb+Bran09)
205.  Brandenburg, A.: 2009, “The critical role of magnetic helicity in astrophysical dynamos,” Plasma Phys. Control. Fusion 51, 124043 (arXiv:0909.4377, ADS, DOI, 2009/Bran09_sofia)
204.  Sur, S., & Brandenburg, A.: 2009, “The role of the Yoshizawa effect in the Archontis dynamo,” Mon. Not. Roy. Astron. Soc. 399, 273–280 (arXiv:0902.2394, ADS, 2009/Sur+Bran09)
203.  Hubbard, A., Del Sordo, F., Käpylä, P. J., & Brandenburg, A.: 2009, “The alpha effect with imposed and dynamo-generated magnetic fields,” Mon. Not. Roy. Astron. Soc. 398, 1891–1899 (arXiv:0904.2773, ADS, 2009/Hubb+DSor+Kapy+Bran09)
202.  Brandenburg, A., Candelaresi, S., & Chatterjee, P.: 2009, “Small-scale magnetic helicity losses from a mean-field dynamo,” Mon. Not. Roy. Astron. Soc. 398, 1414–1422 (arXiv:0905.0242, ADS, DOI, 2009/Bran+Cand+Chat09)
201.  Vermersch, V., & Brandenburg, A.: 2009, “Shear-driven magnetic buoyancy oscillations,” Astron. Nachr. 330, 797–806 (arXiv:0909.0324, ADS, 2009/Verm+Bran09)
*200.  Käpylä, P. J., Korpi, M. J., & Brandenburg, A.: 2009, “Alpha effect and turbulent diffusion from convection,” Astron. Astrophys. 500, 633–646 (arXiv:0812.1792, ADS, 2009/Kapy+Korp+Bran09b)
199.  Käpylä, P. J., & Brandenburg, A.: 2009, “Turbulent dynamos with shear and fractional helicity,” Astrophys. J. 699, 1059–1166 (arXiv:0810.2298, ADS, 2009/Kapy+Bran09)
198.  Brandenburg, A.: 2009, “Large-scale dynamos at low magnetic Prandtl numbers,” Astrophys. J. 697, 1206–1213 (arXiv:0808.0961, ADS, DOI, 2009/B09)
197.  Käpylä, P. J., Korpi, M. J., & Brandenburg, A.: 2009, “Large-scale dynamos in rigidly rotating turbulent convection,” Astrophys. J. 697, 1153–1163 (arXiv:0812.3958, ADS, 2009/Kapy+Korp+Bran09a)
196.  Mitra, D., Tavakol, R., Brandenburg, A., & Moss, D.: 2009, “Turbulent dynamos in spherical shell segments of varying geometrical extent,” Astrophys. J. 697, 923–933 (arXiv:0812.3106, ADS, 2009/Mit+Tav+Bra+Mos09)
195.  Brandenburg, A., Svedin, A., & Vasil, G. M.: 2009, “Turbulent diffusion with rotation or magnetic fields,” Mon. Not. Roy. Astron. Soc. 395, 1599–1606 (arXiv:0901.2112, ADS, DOI, 2009/Bran+Svedin+Vasil09)
194.  Brandenburg, A.: 2009, “Advances in theory and simulations of large-scale dynamos,” Spa. Sci. Rev. 144, 87–104 (arXiv:0901.0329, ADS, DOI, 2009/B09_bern)
193.  Mitra, D., Käpylä, P. J., Tavakol, R., & Brandenburg, A.: 2009, “Alpha effect and diffusivity in helical turbulence with shear,” Astron. Astrophys. 495, 1–8 (arXiv:0806.1608, ADS, 2009/Mitra_etal09a)
192.  Rädler, K.-H., & Brandenburg, A.: 2009, “Mean-field effects in the Galloway-Proctor flow,” Mon. Not. Roy. Astron. Soc. 393, 113–125 (arXiv:0809.0851, ADS, 2009/Radl+Bran09)
191.  Liljeström, A. J., Korpi, M. J., Käpylä, P. J., Brandenburg, A., & Lyra, W.: 2009, “Turbulent stresses as a function of shear rate in a local disk model,” Astron. Nachr. 330, 92–99 (arXiv:0811.2341, ADS, 2009/Liljestrom_etal09)
190.  Käpylä, P. J., Mitra, D., & Brandenburg, A.: 2009, “Numerical study of large-scale vorticity generation in shear-flow turbulence,” Phys. Rev. E 79, 016302 (arXiv:0810.0833, ADS, 2009/Kapy+Mitra+Bran09)
189.  Tilgner, A., & Brandenburg, A.: 2008, “A growing dynamo from a saturated Roberts flow dynamo,” Mon. Not. Roy. Astron. Soc. 391, 1477–1481 (arXiv:0808.2141, ADS, 2008/Tilg+Bran08)
*188.  Käpylä, P. J., Korpi, M. J., & Brandenburg, A.: 2008, “Large-scale dynamos in turbulent convection with shear,” Astron. Astrophys. 491, 353–362 (arXiv:0806.0375, ADS, 2008/Kapy+Korp+Bran08)
187.  Brandenburg, A., Rädler, K.-H., Rheinhardt, M., & Subramanian, K.: 2008, “Magnetic quenching of alpha and diffusivity tensors in helical turbulence,” Astrophys. J. Lett. 687, L49–L52 (arXiv:0805.1287, ADS, 2008/BRRS08)
186.  Käpylä, P. J., & Brandenburg, A.: 2008, “Lambda effect from forced turbulence simulations,” Astron. Astrophys. 488, 9–23 (arXiv:0806.3751, ADS, 2008/Kapy+Bran08)
185.  Brandenburg, A.: 2008, “The dual role of shear in large-scale dynamos,” Astron. Nachr. 329, 725–731 (arXiv:0808.0959, ADS, 2008/Bran08_dual)
184.  Brandenburg, A.: 2008, “Turbulent protostellar discs,” Phys. Scr. T130, 014016 (arXiv:0808.0960, ADS, 2008/Bran08_disc)
183.  Jouve, L., Brun, A. S., Arlt, R., Brandenburg, A., Dikpati, M., Bonanno, A., Käpylä, P. J., Moss, D., Rempel, M., Gilman, P., Korpi, M. J., & Kosovichev, A. G.: 2008, “A solar mean field dynamo benchmark,” Astron. Astrophys. 483, 949–960 (ADS, 2008/Jouve_etal08)
182.  Babkovskaia, N., Brandenburg, A., & Poutanen, J.: 2008, “Boundary layer on the surface of a neutron star,” Mon. Not. Roy. Astron. Soc. 386, 1038–1044 (arXiv:0802.1663, ADS, HTML, 2008/Babk+Bran+Pout08)
181.  Dib, S., Brandenburg, A., Kim, J., Gopinathan, M., & Andre, P.: 2008, “Core mass function: the role of gravity,” Astrophys. J. 678, L105–L108 (arXiv:0801.2257, ADS, 2008/Dib_etal08)
180.  Brandenburg, A., Rädler, K.-H., & Schrinner, M.: 2008, “Scale dependence of alpha effect and turbulent diffusivity,” Astron. Astrophys. 482, 739–746 (arXiv:0801.1320, ADS, 2008/Bran+Radl+Schr08)
179.  Brandenburg, A., & Spiegel, E. A.: 2008, “Modeling a Maunder minimum,” Astron. Nachr. 329, 351–358 (arXiv:0801.2156, ADS, 2008/Bran+Spie08)
178.  Sur, S., Brandenburg, A., & Subramanian, K.: 2008, “Kinematic alpha effect in isotropic turbulence simulations,” Mon. Not. Roy. Astron. Soc. 385, L15–L19 (arXiv:0711.3789, ADS, 2008/Sur_etal08)
*177.  Brandenburg, A., Rädler, K.-H., Rheinhardt, M., & Käpylä, P. J.: 2008, “Magnetic diffusivity tensor and dynamo effects in rotating and shearing turbulence,” Astrophys. J. 676, 740–751 (arXiv:0710.4059, ADS, 2008/Bran+Radl+Rhei+Kap08)
176.  Rädler, K.-H., & Brandenburg, A.: 2008, “Alpha–effect dynamos with zero kinetic helicity,” Phys. Rev. E 77, 026405 (arXiv:0801.0602, ADS, 2008/Radl+Bran08)
175.  Brandenburg, A., Käpylä, P. J., Mitra, D., Moss, D., & Tavakol, R.: 2007, “The helicity constraint in spherical shell dynamos,” Astron. Nachr. 328, 1118–1121 (arXiv:0711.3616, ADS, 2007/Bran+Kapy+Mitra+Moss+Tava07)
174.  Käpylä, P. J., & Brandenburg, A.: 2007, “Turbulent viscosity and $\Lambda$-effect from numerical turbulence models,” Astron. Nachr. 328, 1006–1008 (arXiv:0710.5632, ADS, 2007/Kapy+Bran07)
173. Brandenburg, A., Lehto, H. J., & Lehto, K. M.: 2007, “Homochirality in an early peptide world,” Astrobiol. 7, 725–732 (q-bio/0610051, ADS, 2007/Bran+Lehtos07)
172. Brandenburg, A., & Käpylä, P. J.: 2007, “Magnetic helicity effects in astrophysical and laboratory dynamos,” New J. Phys. 9, 305, 1–24 (arXiv:0705.3507, ADS, 2007/Bran+Kapy07)
171. Brandenburg, A., & Subramanian, K.: 2007, “Simulations of the anisotropic kinetic and magnetic alpha effects,” Astron. Nachr. 328, 507–512 (arXiv:0705.3508, ADS, 2007/Bran+Sub07)
170. Sur, S., Subramanian, K., & Brandenburg, A.: 2007, “Kinetic and magnetic alpha effects in non-linear dynamo theory,” Mon. Not. Roy. Astron. Soc. 376, 1238–1250 (astro-ph/0701001, ADS, 2007/Sur_etal07)
169. Brandenburg, A., Korpi, M. J., & Mee, A. J.: 2007, “Thermal instability in shearing and periodic turbulence,” Astrophys. J. 654, 945–954 (astro-ph/0604244, ADS, DOI, HTML, 2007/Bran+Korp+Mee07)
168. Snodin, A. P., Brandenburg, A., Mee, A. J., & Shukurov, A.: 2006, “Simulating field-aligned diffusion of a cosmic ray gas,” Mon. Not. Roy. Astron. Soc. 373, 643–652 (astro-ph/0507176, ADS, 2006/Snodin_etal06)
167. Subramanian, K., & Brandenburg, A.: 2006, “Magnetic helicity density and its flux in weakly inhomogeneous turbulence,” Astrophys. J. 648, L71–L74 (astro-ph/0509392, ADS, 2006/Sub+Bran06)
166. Haugen, N. E. L., & Brandenburg, A.: 2006, “Hydrodynamic and hydromagnetic energy spectra from large eddy simulations,” Phys. Fluids 18, 075106 (astro-ph/0412666, ADS, DOI, HTML, 2006/Hau+Bran06)
165. Gustafsson, M., Brandenburg, A., Lemaire, J. L., & Field, D.: 2006, “The nature of turbulence in OMC1 at the star forming scale: observations and simulations,” Astron. Astrophys. 454, 815–825 (astro-ph/0512214, ADS, HTML, 2006/Gustafsson_etal06)
164. Mee, A. J., & Brandenburg, A.: 2006, “Turbulence from localized random expansion waves,” Mon. Not. Roy. Astron. Soc. 370, 415–419 (astro-ph/0602057, ADS, 2006/Mee+Bran06)
163. Brandenburg, A., & Dintrans, B.: 2006, “Nonaxisymmetric stability in the shearing sheet approximation,” Astron. Astrophys. 450, 437–444 (astro-ph/0111313, ADS, 2006/Bran+Din06)
162. Brandenburg, A.: 2006, “Magnetic helicity in primordial and dynamo scenarios of galaxies,” Astron. Nachr. 327, 123–130 (astro-ph/0601496, ADS, 2006/B06_bologna)
161. Shukurov, A., Sokoloff, D., Subramanian, K., & Brandenburg, A.: 2006, “Galactic dynamo and helicity losses through fountain flow,” Astron. Astrophys. 448, L33–L36 (astro-ph/0512592, ADS, 2006/Shuk+Sok+Sub+Bran06)
160. Heinemann, T., Dobler, W., Nordlund, Å., & Brandenburg, A.: 2006, “Radiative transfer in decomposed domains,” Astron. Astrophys. 448, 731–737 (astro-ph/0503510, ADS, 2006/Heinemann_etal06)
*159. Dobler, W., Stix, M., & Brandenburg, A.: 2006, “Convection and magnetic field generation in fully convective spheres,” Astrophys. J. 638, 336–347 (astro-ph/0410645, ADS, 2006/Dobl+Stix+Bran06)
158. von Rekowski, B., & Brandenburg, A.: 2006, “Stellar dynamo driven wind braking versus disc coupling,” Astron. Nachr. 327, 53–71 (astro-ph/0504053, ADS, 2006/vReko+Bran06)
157. Nilsson, M., Brandenburg, A., Andersen, A. C., & Höfner, S.: 2005, “Unidirectional polymerization leading to homochirality in the RNA world,” Int. J. Astrobiol. 4, 233–239 (q-bio/0505041, ADS, 2005/Nil+Bran+And+Hof05)
156. Brandenburg, A., Andersen, A. C., & Nilsson, M.: 2005, “Dissociation in a polymerization model of homochirality,” Orig. Life Evol. Biosph. 35, 507–521 (q-bio/0502008, ADS, 2005/Bran+And+Nil05)
155. Brandenburg, A.: 2005, “Turbulence and its parameterization in accretion discs,” Astron. Nachr. 326, 787–797 (astro-ph/0510015, ADS, 2005/B05_QPO)
154. Multamäki, T., & Brandenburg, A.: 2005, “Spatial dynamics of homochiralization,” Int. J. Astrobiol. 4, 75–80 (q-bio/0505040, ADS, 2005/Mult+Bran05)
*153. Brandenburg, A., & Subramanian, K.: 2005, “Astrophysical magnetic fields and nonlinear dynamo theory,” Phys. Rep. 417, 1–209 (astro-ph/0405052, ADS, DOI, 2005/Bran+Sub05)
152. Brandenburg, A., & Subramanian, K.: 2005, “Minimal tau approximation and simulations of the alpha effect,” Astron. Astrophys. 439, 835–843 (astro-ph/0504222, ADS, 2005/Bran+Sub05a)
151. Brandenburg, A., Chan, K. L., Nordlund, Å., & Stein, R. F.: 2005, “Effect of the radiative background flux in convection,” Astron. Nachr. 326, 681–692 (astro-ph/0508404, ADS, 2005/Bran+Chan+Nor+Stein05)
150. Brandenburg, A., Andersen, A. C., Höfner, S., & Nilsson, M.: 2005, “Homochiral growth through enantiomeric cross-inhibition,” Orig. Life Evol. Biosph. 35, 225–241 (q-bio/0401036, ADS, 2005/Bran+And+Hof+Nil05)
149. Dintrans, B., Brandenburg, A., Nordlund, Å., & Stein, R. F.: 2005, “Spectrum and amplitudes of internal gravity waves excited by penetrative convection in solar-type stars,” Astron. Astrophys. 438, 365–376 (astro-ph/0502138, ADS, 2005/Dintrans_etal05)
148. Brandenburg, A., & Subramanian, K.: 2005, “Strong mean field dynamos require supercritical helicity fluxes,” Astron. Nachr. 326, 400–408 (astro-ph/0505457, ADS, DOI, 2005/Bran+Sub05b)
147. Christensson, M., Hindmarsh, M., & Brandenburg, A.: 2005, “Scaling laws in decaying helical 3D magnetohydrodynamic turbulence,” Astron. Nachr. 326, 393–399 (astro-ph/0209119, ADS, 2005/Christensson_etal05)
146. Schekochihin, A. A., Haugen, N. E. L., Brandenburg, A., Cowley, S. C., Maron, J. L., & McWilliams, J. C.: 2005, “The onset of small scale dynamo at small magnetic Prandtl numbers,” Astrophys. J. 625, L115–L118 (astro-ph/0412594, ADS, 2005/Scheko_etal05)
*145. Brandenburg, A.: 2005, “The case for a distributed solar dynamo shaped by near-surface shear,” Astrophys. J. 625, 539–547 (astro-ph/0502275, ADS, DOI, 2005/B05)
144. Brandenburg, A., Haugen, N. E. L., Käpylä, P. J., & Sandin, C.: 2005, “The problem of small and large scale fields in the solar dynamo,” Astron. Nachr. 326, 174–185 (astro-ph/0412364, ADS, 2005/Bran+Hau+Kap+San05)
143. Brandenburg, A., & Multamäki, T.: 2004, “How long can left and right handed life forms coexist?” Int. J. Astrobiol. 3, 209–219 (q-bio/0407008, ADS, 2004/Bran+Mult04)
142. Subramanian, K., & Brandenburg, A.: 2004, “Nonlinear current helicity fluxes in turbulent dynamos and alpha quenching,” Phys. Rev. Lett. 93, 205001 (astro-ph/0408020, ADS, 2004/Sub+Bran04)
141. Pearson, B. R., Yousef, T. A., Haugen, N. E. L., Brandenburg, A., & Krogstad, P. Å.: 2004, “Delayed correlation between turbulent energy dissipation and injection,” Phys. Rev. E 70, 056301 (physics/0404114, ADS, 2004/pearson_etal04)
140. Brandenburg, A., & Sandin, C.: 2004, “Catastrophic alpha quenching alleviated by helicity flux and shear,” Astron. Astrophys. 427, 13–21 (astro-ph/0401267, ADS, 2004/Bran+Sand04)
139. von Rekowski, B., Brandenburg, A., Dobler, W., & Shukurov, A.: 2004, “Outflows from dynamo active protostellar accretion discs,” Astrophys. Spa. Sci. 292, 493–500 (astro-ph/0306603, ADS, 2004/vReko_etal04)
138. Sarson, G. R., Shukurov, A., Nordlund, Å., Gudiksen, B., & Brandenburg, A.: 2004, “Self-regulating supernovae heating in interstellar medium simulations,” Astrophys. Spa. Sci. 292, 267–272 (astro-ph/0307013, ADS, 2004/Sars_etal04)
137. Haugen, N. E. L., Brandenburg, A., & Dobler, W.: 2004, “High-resolution simulations of nonhelical MHD turbulence,” Astrophys. Spa. Sci. 292, 53–60 (astro-ph/0306453, ADS, 2004/Hau+Bran+Dobl04b)
136. Haugen, N. E. L., & Brandenburg, A.: 2004, “Suppression of small scale dynamo action by an imposed magnetic field,” Phys. Rev. E 70, 036408 (astro-ph/0402281, ADS, 2004/Hau+Bran04b)
135. Haugen, N. E. L., Brandenburg, A., & Mee, A. J.: 2004, “Mach number dependence of the onset of dynamo action,” Mon. Not. Roy. Astron. Soc. 353, 947–952 (astro-ph/0405453, ADS, 2004/Hau+Bran+Mee04)
134. Haugen, N. E. L., & Brandenburg, A.: 2004, “Inertial range scaling in numerical turbulence with hyperviscosity,” Phys. Rev. E 70, 026405 (astro-ph/0402301, ADS, 2004/Hau+Bran04a)
*133. Haugen, N. E. L., Brandenburg, A., & Dobler, W.: 2004, “Simulations of nonhelical hydromagnetic turbulence,” Phys. Rev. E 70, 016308 (astro-ph/0307059, ADS, DOI, 2004/Hau+Bran+Dobl04)
132. Dintrans, B., & Brandenburg, A.: 2004, “Identification of gravity waves in hydrodynamical simulations,” Astron. Astrophys. 421, 775–782 (astro-ph/0311094, ADS, 2004/Dintrans+Bran04)
131. Brandenburg, A., & Matthaeus, W. H.: 2004, “Magnetic helicity evolution in a periodic domain with imposed field,” Phys. Rev. E 69, 056407 (astro-ph/0305373, ADS, 2004/Bran+Matth04)
130. Yousef, T. A., Haugen, N. E. L., & Brandenburg, A.: 2004, “Self-similar scaling in decaying numerical turbulence,” Phys. Rev. E 69, 056303 (astro-ph/0312505, ADS, 2004/You+Hau+Bran04)
129. von Rekowski, B., & Brandenburg, A.: 2004, “Outflows and accretion in a star–disc system with stellar magnetosphere and disc dynamo,” Astron. Astrophys. 420, 17–32 (astro-ph/0307201, ADS, 2004/vReko+Bran04)
128. Johansen, A., Andersen, A. C., & Brandenburg, A.: 2004, “Simulations of dust-trapping vortices in protoplanetary discs,” Astron. Astrophys. 417, 361–371 (astro-ph/0310059, ADS, 2004/Joh+And+Bran04)
127. Brandenburg, A., Käpylä, P. J., & Mohammed, A.: 2004, “Non-Fickian diffusion and tau-approximation from numerical turbulence,” Phys. Fluids 16, 1020–1027 (astro-ph/0306521, ADS, 2004/Bran+Kapy+Moha04)
126. Shukurov, A., Sarson, G. S., Nordlund, Å., Gudiksen, B., & Brandenburg, A.: 2004, “The effects of spiral arms on the multi-phase ISM,” Astrophys. Spa. Sci. 289, 319–322 (astro-ph/0212260, ADS, 2004/Shuk+Sars+Nord+Gudi+Bran04)
125. Brandenburg, A., Blackman, E. G., & Sarson, G. R.: 2003, “How magnetic helicity ejection helps large scale dynamos,” Adv. Spa. Sci. 32, 1835–1844 (astro-ph/0305374, ADS, 2003/Bran+Black+Sars03)
124. Yousef, T. A., Brandenburg, A., & Rüdiger, G.: 2003, “Turbulent magnetic Prandtl number and magnetic diffusivity quenching from simulations,” Astron. Astrophys. 411, 321–327 (astro-ph/0302425, ADS, 2003/You+Bran+Rue03)
123. Haugen, N. E. L., Brandenburg, A., & Dobler, W.: 2003, “Is nonhelical hydromagnetic turbulence peaked at small scales?” Astrophys. J. Lett. 597, L141–L144 (astro-ph/0303372, ADS, DOI, 2003/Hau+Bran+Dobl03)
122. Yousef, T. A., & Brandenburg, A.: 2003, “Relaxation of writhe and twist of a bi-helical magnetic field,” Astron. Astrophys. 407, 7–12 (astro-ph/0303148, ADS, 2003/Yousef+Bran03)
121. Dobler, W., Haugen, N. E. L., Yousef, T. A., & Brandenburg, A.: 2003, “Bottleneck effect in three-dimensional turbulence simulations,” Phys. Rev. E 68, 026304 (astro-ph/0303324, ADS, 2003/Dobl+Hau+You+Bran03)
120. Rädler, K.-H., & Brandenburg, A.: 2003, “Contributions to the theory of a two-scale homogeneous dynamo experiment,” Phys. Rev. E 67, 026401 (physics/0208023, ADS, 2003/Radl+Bran03)
119. Blackman, E. G., & Brandenburg, A.: 2003, “Doubly helical coronal ejections from dynamos and their role in sustaining the solar cycle,” Astrophys. J. Lett. 584, L99–L102 (astro-ph/0212010, ADS, 2003/Black+Bran03)
118. von Rekowski, B., Brandenburg, A., Dobler, W., &, Shukurov, A.: 2003, “Structured outflow from a dynamo active accretion disc,” Astron. Astrophys. 398, 825–844 (astro-ph/0003174, ADS, 2003/vReko_etal03)
117. Dintrans, B., Brandenburg, A., Nordlund, Å., & Stein, R. F.: 2003, “Stochastic excitation of gravity waves by overshooting convection in solar-type stars,” Astrophys. Spa. Sci. 284, 237–240 (astro-ph/0403093, ADS, 2003/Dintrans_etal03)
116. Ossendrijver, M., Stix, M., Brandenburg, A., & Rüdiger, G.: 2002, “Magnetoconvection and dynamo coefficients: II. Field direction dependent pumping of magnetic field,” Astron. Astrophys. 394, 735–745 (astro-ph/0202299, ADS, 2002/Ossen_etal02)
115. Blackman, E. G., & Brandenburg, A.: 2002, “Dynamic nonlinearity in large scale dynamos with shear,” Astrophys. J. 579, 359–373 (astro-ph/0204497, ADS, 2002/BB02)
114. Saar, S. H., & Brandenburg, A.: 2002, “A new look at dynamo cycle amplitudes,” Astron. Nachr. 323, 357–360 (astro-ph/0207392, ADS, 2002/Saar+Bran02)
113. Brandenburg, A.& Dobler, W.: 2002, “Solar and stellar dynamos – latest developments,” Astron. Nachr. 323, 411–416 (astro-ph/0207393, ADS, 2002/Bran+Dobl_an02)
112. Brandenburg, A., & Sokoloff, D.: 2002, “Local and nonlocal magnetic diffusion and alpha-effect tensors in shear flow turbulence,” Geophys. Astrophys. Fluid Dyn. 96, 319–344 (astro-ph/0111568, ADS, 2002/Bran+Soko02)
111. Brandenburg, A., & Dobler, W.: 2002, “Hydromagnetic turbulence in computer simulations,” Comp. Phys. Comm. 147, 471–475 (astro-ph/0111569, ADS, 2002/Bran+Dobl02)
110. Fogedby, H. C., & Brandenburg, A.: 2002, “Solitons in the noisy Burgers equation,” Phys. Rev. E 66, 016604 (cond-mat/0105100, ADS, 2002/Fogedby+Bran02)
109. Brandenburg, A., Dobler, W., & Subramanian, K.: 2002, “Magnetic helicity in stellar dynamos: new numerical experiments,” Astron. Nachr. 323, 99–122 (astro-ph/0111567, ADS, 2002/Bran+Dobl+Sub02)
108. Dobler, W., Shukurov, A., & Brandenburg, A.: 2002, “Nonlinear states of the screw dynamo,” Phys. Rev. E 65, 036311 (astro-ph/0105484, ADS, 2002/Dobler+Shuk+Bran02)
107. Brandenburg, A., & Sarson, G. R.: 2002, “The effect of hyperdiffusivity on turbulent dynamos with helicity,” Phys. Rev. Lett. 88, 055003, 1–4 (astro-ph/0110171, ADS, 2002/Bran+Sars02)
106. Arlt, R., & Brandenburg, A.: 2001, “Search for non-helical disc dynamos in simulations,” Astron. Astrophys. 380, 359–372 (astro-ph/0106557, ADS, 2001/Arlt+Bran01)
105. Brandenburg, A., & von Rekowski, B.: 2001, “Astrophysical significance of the anisotropic kinetic alpha effect,” Astron. Astrophys. 379, 1153–1160 (astro-ph/0106280, ADS, 2001/Bran+vReko01)
104. Christensson, M., Hindmarsh, M., & Brandenburg, A.: 2001, “Inverse cascade in decaying 3D magnetohydrodynamic turbulence,” Phys. Rev. E 64, 056405 (astro-ph/0011321, ADS, 2001/Christensson_etal01)
103. Ossendrijver, M., Stix, M., & Brandenburg, A.: 2001, “Magnetoconvection and dynamo coefficients: dependence of the alpha effect on rotation and magnetic field,” Astron. Astrophys. 376, 713–726 (astro-ph/0108274, ADS, 2001/Ossen_etal01)
102. Brandenburg, A., Bigazzi, A., & Subramanian, K.: 2001, “The helicity constraint in turbulent dynamos with shear,” Mon. Not. Roy. Astron. Soc. 325, 685–692 (astro-ph/0011081, ADS, 2001/BBS01)
101. Brandenburg, A.: 2001, “Magnetic mysteries,” Science 292, 2440–2441 (ADS, 2001/Bran01_sci, HTML
100. Brandenburg, A., & Hazlehurst, J.: 2001, “Evolution of highly buoyant thermals in a stratified layer,” Astron. Astrophys. 370, 1092–1102 (astro-ph/0008099, ADS, 2001/Bran+Hazle01)
99. Bardou, A., von Rekowski, B., Dobler, W., Brandenburg, A., & Shukurov, A.: 2001, “The effects of vertical outflow on disk dynamos,” Astron. Astrophys. 370, 635–648 (astro-ph/0011545, ADS, 2001/Bardou_etal01)
*98. Brandenburg, A.: 2001, “The inverse cascade and nonlinear alpha effect in simulations of isotropic helical hydromagnetic turbulence,” Astrophys. J. 550, 824–840 (astro-ph/0006186, ADS, 2001/B01)
97. Brandenburg, A., & Dobler, W.: 2001, “Large scale dynamos with helicity loss through boundaries,” Astron. Astrophys. 369, 329–338 (astro-ph/0012472, ADS, 2001/Bran+Dobl01)
96. Sánchez-Salcedo, F. J., & Brandenburg, A.: 2001, “Dynamical friction of bodies orbiting in a gaseous sphere,” Mon. Not. Roy. Astron. Soc. 322, 67–78 (astro-ph/0010003, ADS, 2001/Salc+Bran01)
95. Brandenburg, A., & Subramanian, K.: 2000, “Large scale dynamos with ambipolar diffusion nonlinearity,” Astron. Astrophys. 361, L33–L36 (astro-ph/0007450, ADS, 2000/Bran+Sub00)
94. Torkelsson, U., Ogilvie, G. I., Brandenburg, A., Pringle, J. E., Nordlund, Å., & Stein, R. F.: 2000, “The response of a turbulent accretion disc to an imposed epicyclic shearing motion,” Mon. Not. Roy. Astron. Soc. 318, 47–57 (astro-ph/0005199, ADS, 2000/Torkel_etal00)
93. Urpin, V., & Brandenburg, A.: 2000, “Non-linear magnetic diffusivity in mean-field electrodynamics,” Mon. Not. Roy. Astron. Soc. 316, 684–688 (ADS, 2000/Urp+Bran00)
92. Brandenburg, A.: 2000, “Dynamo-generated turbulence and outflows from accretion discs,” Phil. Trans. Roy. Soc. Lond. A 358, 759–776 (ADS, 2000/Bran_philtrans00)
91. Miesch, M. S., Brandenburg, A., & Zweibel, E. G.: 2000, “Nonlocal transport of passive scalars in turbulent penetrative convection,” Phys. Rev. E61, 457–467 (ADS, 2000/Miesch+Bran+Zwei00)
90. Saar, S. H., & Brandenburg, A.: 1999, “Time evolution of the magnetic activity cycle period. II. Results for an expanded stellar sample,” Astrophys. J. 524, 295–310 (ADS, 1999/Saar+Bran99)
89. Korpi, M. J., Brandenburg, A., Shukurov, A., & Tuominen, I.: 1999, “Evolution of a superbubble in a turbulent, multi-phased and magnetized ISM,” Astron. Astrophys. 350, 230–239 (ADS, 1999/Korpi_etal99b)
88. Sánchez-Salcedo, F. J., & Brandenburg, A.: 1999, “Deceleration by dynamical friction in a gaseous medium,” Astrophys. J. Lett. 522, L35–L38 (ADS, 1999/Salc+Bran99)
87. Rüdiger, G., Brandenburg, A., & Pipin, V. V.: 1999, “A helicity proxy from horizontal solar flow patterns,” Astron. Nachr. 320, 135–140 (ADS, 1999/Rue+Bran+Pip99)
86. Kerr, R. M., & Brandenburg, A.: 1999, “Evidence for a singularity in ideal magnetohydrodynamics: implications for fast reconnection,” Phys. Rev. Lett. 83, 1155–1158 (physics/9812017, ADS, 1999/Kerr+Bran99)
85. Moss, D., & Brandenburg, A.: 1999, “Comment on `The sunspot as a self-excited dynamo',” Astron. Astrophys. 346, 1009–1010 (ADS, 1999/Moss+Bran99)
84. Urpin, V., & Brandenburg, A.: 1999, “Magnetic drift processes in differentially rotating turbulence,” Astron. Astrophys. 345, 1054–1058 (ADS, 1999/Urp+Bran99)
83. Covas, E., Tavakol, R., Tworkowski, A., Brandenburg, A., Brooke, J., & Moss, D.: 1999, “The influence of geometry and topology on axisymmetric mean field dynamos,” Astron. Astrophys. 345, 669–679 (astro-ph/9811079, ADS, 1999/Covas_etal99)
*82. Korpi, M. J., Brandenburg, A., Shukurov, A., Tuominen, I., & Nordlund, Å.: 1999, “A supernova regulated interstellar medium: simulations of the turbulent multiphase medium,” Astrophys. J. Lett. 514, L99–L102 (ADS, 1999/Korpi_etal99)
81. Bigazzi, A., Brandenburg, A., & Moss, D.: 1999, “Vortex tube models for turbulent dynamo action,” Phys. Plasmas 6, 72–80 (ADS, 1999/Big+Bran+Moss99)
80. Sánchez-Salcedo, F. J., & Brandenburg, A., Shukurov, A.: 1998, “Turbulence and magnetic fields in clusters of galaxies,” Astron. Spac. Sci. 263, 87–90 (ADS, 1998/Sanch+Bran+Shuk98)
79. Bigazzi, A., Brandenburg, A., & Moss, D.: 1998, “Local models of small-scale dynamo action,” J. Phys. IV 8, 183–187 (DOI, 1998/Biga+Bran+Moss98)
78. Brandenburg, A., & Schmitt, D.: 1998, “Simulations of an alpha effect due to magnetic buoyancy,” Astron. Astrophys. 338, L55–L58 (ADS, 1998/Bran+Schmitt98)
77. Korpi, M. J., Brandenburg, A., & Tuominen, I.: 1998, “Driving interstellar turbulence by supernova explosions,” Studia Geophys. et Geod. 42, 410–418 (1998/Korpi+Bran+Tuom98)
76. Tworkowski, A., Covas, E., Tavakol, R., & Brandenburg, A.: 1998, “Mean field dynamos with algebraic and dynamic alpha-quenchings,” Studia Geophys. et Geod. 42, 350–355 (astro-ph/9808214, 1998/Tworkowski_etal98)
75. Brandenburg, A., & Campbell, C. G.: 1998, “The radial disc structure around a magnetic neutron star: analytic and semi-analytic solutions,” Mon. Not. Roy. Astron. Soc. 298, 223–230 (ADS, 1998/Bran+Camp98)
74. Brandenburg, A., Moss, D., & Soward, A. M.: 1998, “New results for the Herzenberg dynamo: steady and oscillatory solutions,” Proc. Roy. Soc. A 454, 1283–1300 (ADS, DOI, 1998/Bran+Moss+Sow98)
73. Brandenburg, A., Saar, S. H., & Turpin, C. R.: 1998, “Time evolution of the magnetic activity cycle period,” Astrophys. J. Lett. 498, L51–L54 (ADS, 1998/Bran+Saar+Turp98)
72. Brandenburg, A., & Urpin, V.: 1998, “Magnetic fields in young galaxies due to the cross-helicity effect,” Astron. Astrophys. 332, L41–L44 (ADS, 1998/Bran+Urpin98)
71. Hodgson, L. S., & Brandenburg, A.: 1998, “Turbulence effects in planetesimal formation,” Astron. Astrophys. 330, 1169–1174 (ADS, 1998/Hodg+Bran98)
70. Covas, E., Tavakol, R., Tworkowski, A., & Brandenburg, A.: 1998, “Axisymmetric mean field dynamos with dynamic and algebraic alpha–quenchings,” Astron. Astrophys. 329, 350–360 (astro-ph/9709062, ADS, 1998/Covas_etal98)
69. Tworkowski, A., Tavakol, R., Brandenburg, A., Brooke, J. M., Moss, D., & Tuominen, I.: 1998, “Intermittent behaviour in axisymmetric mean field dynamo models,” Mon. Not. Roy. Astron. Soc. 296, 287–295 (ADS, 1998/Tworkowski_etal98b)
68. Urpin, V., & Brandenburg, A.: 1998, “Magnetic and vertical shear instabilities in accretion discs,” Mon. Not. Roy. Astron. Soc. 294, 399–406 (ADS, 1998/Urpin+Bran98)
67. Brandenburg, A.: 1997, “Large scale turbulent dynamos,” Acta Astron. Geophys. Univ. Comenianae XIX, 235–261
66. Covas, E., Tworkowski, A., Tavakol, R., & Brandenburg, A.: 1997, “Robustness of truncated alpha–Omega dynamos with a dynamic alpha,” Solar Phys. 172, 3–9 (astro-ph/9708094, 1997/Covas_etal97)
65. Moss, D., Brandenburg, A., & Soward, A. M.: 1997, “Steady and oscillatory solutions for the Herzenberg dynamo,” Acta Astron. Geophys. Univ. Comenianae XIX, 43–50
64. Brandenburg, A., & Donner, K. J.: 1997, “The dependence of the dynamo alpha on vorticity,” Mon. Not. Roy. Astron. Soc. 288, L29–L33 (ADS, 1997/Bran+Donn97)
63. Zweibel, E. G., & Brandenburg, A.: 1997, “Current sheet formation in the interstellar medium,” Astrophys. J. 478, 563–568 (ADS, 1997/Zwei+Bran97)
62. Brandenburg, A., Enqvist, K., & Olesen, P.: 1997, “The effect of Silk damping on primordial magnetic fields,” Phys. Lett. B. 392, 395–402 (hep-ph/9608422, ADS, 1997/Bran+Enq+Oles97)
61. Covas, E., Tworkowski, A., Brandenburg, A., & Tavakol, R.: 1997, “Dynamos with different formulations of a dynamic alpha effect,” Astron. Astrophys. 317, 610–617 (astro-ph/9708093, ADS, 1997/Covas_etal97b)
60. Vishniac, E. T., & Brandenburg, A.: 1997, “An incoherent alpha–Omega dynamo in accretion disks,” Astrophys. J. 475, 263–274 (astro-ph/9510038, ADS, 1997/Vish+Bran97)
59. Nordlund, Å., Stein, R. F., & Brandenburg, A.: 1996, “Supercomputer windows into the solar convection zone,” Bull. Astr. Soc. India 24, 261–279 (ADS, 1996/Nord+Stein+Bran96)
*58. Beck, R., Brandenburg, A., Moss, D., Shukurov, A., & Sokoloff, D.: 1996, “Galactic magnetism: recent developments and perspectives,” Ann. Rev. Astron. Astrophys. 34, 155–206 (ADS, 1996/Beck_etal96)
57. Torkelsson, U., Brandenburg, A., Nordlund, Å., & Stein, R. F.: 1996, “The turbulent viscosity in accretion discs,” Astrophys. Letter & Comm. 34, 383–388 (ADS, 1996/BNST_ulf96)
56. Abramowicz, M. A., Brandenburg, A., & Lasota, J.-P.: 1996, “The dependence of the viscosity in accretion discs on the shear/vorticity ratio,” Mon. Not. Roy. Astron. Soc. 281, L21–L24 (ADS, 1996/Abramo+Bran+Lasota96)
55. Brandenburg, A.: 1996, “Testing Cowling's anti-dynamo theorem near a rotating black hole,” Astrophys. J. Lett. 465, L115–L118 (ADS, 1996/Bran96)
*54. Brandenburg, A., Enqvist, K., & Olesen, P.: 1996, “Large-scale magnetic fields from hydromagnetic turbulence in the very early universe,” Phys. Rev. D 54, 1291–1300 (astro-ph/9602031, ADS, 1996/Bran+Enq+Oles96)
53. Brandenburg, A., Nordlund, Å., Stein, R. F., & Torkelsson, U.: 1996, “The disk accretion rate for dynamo generated turbulence,” Astrophys. J. Lett. 458, L45–L48 (ADS, 1996/BNST96)
*52. Brandenburg, A., Jennings, R. L., Nordlund, Å., Rieutord, M., Stein, R. F., & Tuominen, I.: 1996, “Magnetic structures in a dynamo simulation,” J. Fluid Mech. 306, 325–352 (ADS, 1996/BJNRRT96)
51. Brandenburg, A., Klapper, I., & Kurths, J.: 1995, “Generalized entropies in a turbulent dynamo simulation,” Phys. Rev. E 52, R4602–R4605 (ADS, 1995/Bran+Klapp+Kur95)
50. Moss, D., & Brandenburg, A.: 1995, “The generation of nonaxisymmetric magnetic fields in the giant planets,” Geophys. Astrophys. Fluid Dyn. 80, 229–240 (ADS, 1995/Moss+Bran95)
49. Brandenburg, A., Moss, D., & Shukurov, A.: 1995, “Galactic fountains as magnetic pumps,” Mon. Not. Roy. Astron. Soc. 276, 651–662 (ADS, 1995/Bran+Moss+Shuk95)
48. Brandenburg, A.: 1995, “Flux tubes and scaling in MHD dynamo simulations,” Chaos, Solitons & Fractals 5, 2023–2045 (ADS, 1995/Bran95)
47. Kerr, R. M., Herring, J. R., & Brandenburg, A.: 1995, “Large-scale structure in Rayleigh-Bénard convection with impenetrable side-walls,” Chaos, Solitons & Fractals 5, 2047–2053 (ADS, 1995/Kerr+Herr+Bran95)
46. Torkelsson, U., & Brandenburg, A.: 1995, “Chaos in accretion disk dynamos?” Chaos, Solitons & Fractals 5, 1975–1984 (ADS, 1995/Tork+Bran95)
45. Brandenburg, A., & Zweibel, E. G.: 1995, “Effects of pressure and resistivity on the ambipolar diffusion singularity: too little, too late,” Astrophys. J. 448, 734–741 (ADS, 1995/Bran+Zwei95)
*44. Brandenburg, A., Nordlund, Å., Stein, R. F., & Torkelsson, U.: 1995, “Dynamo-generated turbulence and large scale magnetic fields in a Keplerian shear flow,” Astrophys. J. 446, 741–754 (ADS, 1995/BNST95)
43. Brandenburg, A., Procaccia, I., & Segel, D.: 1995, “The size and dynamics of magnetic flux structures in MHD turbulence,” Phys. Plasmas 2, 1148–1156 (ADS, 1995/Bran+Proc+Seg95)
42. Muhli, P., Brandenburg, A., Moss, D., & Tuominen, I.: 1995, “Multiple far-supercritical solutions for an alpha–Lambda dynamo,” Astron. Astrophys. 296, 700–704 (ADS, 1995/Muhli_etal95)
41. Rüdiger, G., & Brandenburg, A.: 1995, “A solar dynamo in the overshoot layer: cycle period and butterfly diagram,” Astron. Astrophys. 296, 557–566 (ADS, 1995/Rue+Bran95)
40. Tavakol, R. K., Tworkowski, A. S., Brandenburg, A., Moss, D., & Tuominen, I.: 1995, “Structural stability of axisymmetric dynamo models,” Astron. Astrophys. 296, 269–274 (ADS, 1995/Tavakol_etal95)
39. Moss, D., Barker, D. M., Brandenburg, A., & Tuominen, I.: 1995, “Nonaxisymmetric dynamo solutions and extended starspots on late type stars,” Astron. Astrophys. 294, 155–164 (ADS, 1995/Barker_etal95)
38. Torkelsson, U., & Brandenburg, A.: 1994, “The many incarnations of accretion disk dynamos: mixed parities and chaos for large dynamo numbers,” Astron. Astrophys. 292, 341–349 (ADS, 1994/Torkel+Bran94b)
37. Rieutord, M., Brandenburg, A., Mangeney, A., & Drossart, P.: 1994, “Reynolds stress and differential rotation in Boussinesq convection in a rotating spherical shell,” Astron. Astrophys. 286, 471–480 (ADS, 1994/Rieutord_etal94)
36. Brandenburg, A., & Zweibel, E. G.: 1994, “The formation of sharp structures by ambipolar diffusion,” Astrophys. J. Lett. 427, L91–L94 (ADS, 1994/Bran+Zwei94_col)
35. Tuominen, I., Brandenburg, A., Moss, D., & Rieutord, M.: 1994, “Does solar differential rotation arise from a large scale instability?” Astron. Astrophys. 284, 259–264 (ADS, 1994/Tuom_etal94)
34. Torkelsson, U., & Brandenburg, A.: 1994, “Turbulent accretion disk dynamos,” Astron. Astrophys. 283, 677–691 (ADS, 1994/Torkel+Bran94a)
33. Feudel, F., Feudel, U., & Brandenburg, A.: 1993, “On the bifurcation phenomena of the Kuramoto-Sivashinsky Equation,” Int. J. Bifurc. Chaos 3, 1299–1303 (ADS, DOI, 1993/Feudels+Bran93)
32. Moss, D., Brandenburg, A., Donner, K. J., & Thomasson, M.: 1993, “Models for the magnetic field of M81,” Astrophys. J. 409, 179–189 (ADS, 1993/Moss_etal93)
31. Brandenburg, A., Donner, K. J., Moss, D., Shukurov, A., Sokoloff, D. D., & Tuominen, I.: 1993, “Vertical magnetic fields above the discs of spiral galaxies,” Astron. Astrophys. 271, 36–50 (ADS, 1993/BDMSST93)
30. Pulkkinen, P., Tuominen, I., Brandenburg, A., Nordlund, Å., & Stein, R. F.: 1993, “Rotational effects on convection simulated at different latitudes,” Astron. Astrophys. 267, 265–275 (ADS, 1993/Pulkk_etal93)
29. Jennings, R. L., Brandenburg, A., Nordlund, Å., & Stein, R.F.: 1992, “Evolution of a magnetic flux tube in two dimensional penetrative convection,” Mon. Not. Roy. Astron. Soc. 259, 465–473 (ADS, 1992/Jennings_etal92)
28. Moss, D., Brandenburg, A., Tavakol, R. K., & Tuominen, I.: 1992, “Stochastic effects in mean field dynamos,” Astron. Astrophys. 265, 843–849 (ADS, 1992/Moss_etal92)
27. Brandenburg, A., Procaccia, I., Segel, D., & Vincent, A.: 1992, “Fractal level sets and multifractal fields in direct simulations of turbulence,” Phys. Rev. A 46, 4819–4828 (ADS, 1992/Bran+Proc_etal92)
26. Brandenburg, A., Moss, D., & Tuominen, I.: 1992, “Stratification and thermodynamics in mean-field dynamos,” Astron. Astrophys. 265, 328–344 (ADS, 1992/Bran+Moss+Tuom92)
25. Brandenburg, A.: 1992, “Energy spectra in a model for convective turbulence,” Phys. Rev. Lett. 69, 605–608 (ADS, 1992/B92)
24. Brandenburg, A., Donner, K. J., Moss, D., Shukurov, A., Sokoloff, D. D., & Tuominen, I.: 1992, “Dynamos in discs and halos of galaxies,” Astron. Astrophys. 259, 453–461 (ADS, 1992/BDMSST92)
23. Procaccia, I., Brandenburg, A., Jensen, M. H., Vincent, A.: 1992, “The fractal dimension of iso-vorticity structures in 3-dimensional turbulence,” Europhys. Lett. 19, 183–187 (ADS, 1992/Procaccia_etal92)
*22. Nordlund, Å., Brandenburg, A., Jennings, R. L., Rieutord, M., Ruokolainen, J., Stein, R. F., & Tuominen, I.: 1992, “Dynamo action in stratified convection with overshoot,” Astrophys. J. 392, 647–652 (ADS, 1992/Nord_etal92)
21. Moss, D., & Brandenburg, A.: 1992, “The influence of boundary conditions on the excitation of disk dynamo modes,” Astron. Astrophys. 256, 371–374 (ADS, 1992/Moss+Bran92)
20. Kurths, J., & Brandenburg, A.: 1991, “Lyapunov exponents for hydromagnetic convection,” Phys. Rev. A 44, R3427–R3429 (ADS, 1991/Kurths+Bran91)
19. Moss, D., Brandenburg, A., & Tuominen, I.: 1991, “Properties of mean field dynamos with nonaxisymmetric alpha effect,” Astron. Astrophys. 247, 576–579 (ADS, 1991/Moss+Bran+Tuom91)
18. Brandenburg, A., Moss, D., Rüdiger, G., & Tuominen, I.: 1991, “Hydromagnetic alpha–Omega-type dynamos with feedback from large scale motions,” Geophys. Astrophys. Fluid Dyn. 61, 179–198 (ADS, 1991/Bran+Moss+Rue+Tuom91)
17. Moss, D., Tuominen, I., & Brandenburg, A.: 1991, “Nonlinear nonaxisymmetric dynamo models for cool stars,” Astron. Astrophys. 245, 129–135 (ADS, 1991/Moss+Tuom+Bran91)
16. Donner, K. J., & Brandenburg, A.: 1990, “Generation and interpretation of galactic magnetic fields,” Astron. Astrophys. 240, 289–298 (ADS, 1990/Donn+Bran90)
15. Rädler, K.-H., Wiedemann, E., Brandenburg, A., Meinel, R., & Tuominen, I.: 1990, “Nonlinear mean-field dynamo models: Stability and evolution of three-dimensional magnetic field configurations,” Astron. Astrophys. 239, 413–423 (ADS, 1990/Raedler_etal90)
14. Meinel, R., & Brandenburg, A.: 1990, “Behavior of highly supercritical alpha effect dynamos,” Astron. Astrophys. 238, 369–376 (ADS, 1990/Mein+Bran90)
13. Moss, D., Tuominen, I., & Brandenburg, A.: 1990, “Buoyancy limited thin shell dynamos,” Astron. Astrophys. 240, 142–149 (ADS, 1990/Moss+Tuom+Bran90b)
12. Donner, K. J., & Brandenburg, A.: 1990, “Magnetic field structure in differentially rotating discs,” Geophys. Astrophys. Fluid Dyn. 50, 121–129 (ADS, DOI, 1990/Donn+Bran90b)
11. Brandenburg, A., Moss, D., Rüdiger, G., & Tuominen, I.: 1990, “The nonlinear solar dynamo and differential rotation: A Taylor number puzzle?” Solar Phys. 128, 243–251 (ADS, 1990/Bran+Moss+Rue+Tuom90)
10. Brandenburg, A., Tuominen, I., & Krause, F.: 1990, “Dynamos with a flat alpha effect distribution,” Geophys. Astrophys. Fluid Dyn. 50, 95–112 (ADS, 1990/Bran+Tuom+Krau90)
9. Brandenburg, A., Nordlund, Å., Pulkkinen, P., Stein, R.F., & Tuominen, I.: 1990, “3-D Simulation of turbulent cyclonic magneto-convection,” Astron. Astrophys. 232, 277–291 (ADS, 1990/BNPST90)
8. Jennings, R. L., Brandenburg, A., Moss, D., & Tuominen, I.: 1990, “Can stellar dynamos be modelled in less than three dimensions?,” Astron. Astrophys. 230, 463–473 (ADS, 1990/Jennings_etal90)
7. Moss, D., Tuominen, I., & Brandenburg, A.: 1990, “Nonlinear dynamos with magnetic buoyancy in spherical geometry,” Astron. Astrophys. 228, 284–294 (ADS, 1990/Moss+Tuom+Bran90a)
6. Vilhu, O., Ambruster, C. W., Neff, J. E., Linsky, J. L., Brandenburg, A., Ilyin, I. V., & Shakhovskaya, N. I.: 1989, “IUE observations of the M dwarfs CM Draconis and Rossiter 137 B: magnetic activity at saturated levels,” Astron. Astrophys. 222, 179–186 (ADS, 1989/Vilhu_etal89)
5. Brandenburg, A., Tuominen, I., & Rädler, K.-H.: 1989, “On the generation of non-axisymmetric magnetic fields in mean-field dynamos,” Geophys. Astrophys. Fluid Dyn. 49, 45–55 (ADS, DOI, 1989/Bran+Tuom+Raed89)
4. Brandenburg, A., Tuominen, I., & Moss, D.: 1989, “On the nonlinear stability of dynamo models,” Geophys. Astrophys. Fluid Dyn. 49, 129–141 (ADS, 1989/Bran+Tuom+Moss89)
*3. Brandenburg, A., Krause, F., Meinel, R., Moss, D., & Tuominen, I.: 1989, “The stability of nonlinear dynamos and the limited role of kinematic growth rates,” Astron. Astrophys. 213, 411–422 (ADS, 1989/BKMMT89)
2. Brandenburg, A., & Tuominen, I.: 1988, “Variation of magnetic fields and flows during the solar cycle,” Adv. Spa. Sci. 8, 185–189 (ADS, 1988/Bran+Tuom88)
1. Brandenburg, A.: 1988, “Hydrodynamic Green's functions for atmospheric oscillations,” Astron. Astrophys. 203, 154–161 (ADS, 1988/B88)
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