A. Publications in refereed journals

(Highly quoted papers are denoted by an asterisk)

448.  Brandenburg, A., Elstner, D., Masada, Y., & Pipin, V.: 2023, “Turbulent processes and mean-field dynamo,” Spa. Sci. Rev., submitted (arXiv:2303.12425, ADS, HTML, PDF)
447.  Mizerski, K. A., Yokoi, N., & Brandenburg, A.: 2023, “Cross-helicity effect on $\alpha$-type dynamo in non-equilibrium turbulence,” J. Plasma Phys., submitted (arXiv:2303.01090, ADS, HTML, PDF)
446.  Brandenburg, A., Kamada, K., & Schober, J.: 2023, “Decay law of magnetic turbulence with helicity balanced by chiral fermions,” Phys. Rev. Lett., submitted (arXiv:2302.00512, ADS, HTML, PDF)
445.  He, Y., Roper Pol, A., & Brandenburg, A.: 2023, “Modified propagation of gravitational waves from the early radiation era,” J. Cosmol. Astropart. Phys., submitted (arXiv:2212.06082, ADS, HTML, PDF)
444.  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, PDF)
443.  He, Y., Roper Pol, A., & Brandenburg, A.: 2023, “Leading-order nonlinear gravitational waves from reheating magnetogeneses,” Phys. Rev. D, submitted (arXiv:2110.14456, ADS, PDF)
442.  Bhat, P., Subramanian, K., & Brandenburg, A.: 2023, “Efficient quasi-kinematic large-scale dynamo as the small-scale dynamo saturates,” Phys. Rev. Lett., submitted (arXiv:1905.08278, ADS, HTML, PDF)
441.  Giampapa, M. S., Cody, A. M., Brandenburg, A., Skiff, B. A., & Hall, J. C.: 2023, “The rotation and chromospheric activity of the solar-type stars in the open cluster M67,” Astrophys. J., submitted (HTML)
In press:
440.  Brandenburg, A., & Ntormousi, E.: 2023, “Galactic Dynamos,” Annu. Rev. Astron. Astrophys., in press (arXiv:2211.03476, ADS, HTML, PDF)
439.  Brandenburg, A.: 2023, “Hosking integral in nonhelical Hall cascade,” J. Plasma Phys. 89, 175890101 (arXiv:2211.14197, ADS, DOI, HTML, PDF)
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, PDF)
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, PDF)
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, PDF, 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, PDF)
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, PDF, 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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF, 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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
421.  Brandenburg, A., & Sharma, R.: 2021, “Simulating relic gravitational waves from inflationary magnetogenesis,” Astrophys. J. 920, 26 (arXiv:2106.03857, ADS, DOI, HTML, PDF)
420.  Brandenburg, A., & Das, U.: 2021, “Turbulent radiative diffusion and turbulent Newtonian cooling,” Phys. Fluids 33, 095125 (arXiv:2010.07046, ADS, DOI, HTML, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
408.  Brandenburg, A.: 2020, “Hall cascade with fractional magnetic helicity in neutron star crusts,” Astrophys. J. 901, 18 (arXiv:2006.12984, ADS, DOI, HTML, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
378.  Brandenburg, A.: 2018, “Magnetic helicity and fluxes in an inhomogeneous alpha squared dynamo,” Astron. Nachr. 339, 631–640 (arXiv:1901.07552, ADS, DOI, PDF)
377.  Brandenburg, A., & Oughton, S.: 2018, “Cross-helically forced and decaying hydromagnetic turbulence,” Astron. Nachr. 339, 641–646 (arXiv:1901.05875, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
368.  Zhang, H., & Brandenburg, A.: 2018, “Solar kinetic energy and cross helicity spectra,” Astrophys. J. Lett. 862, L17 (arXiv:1804.10321, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
354.  Cameron, R. H., Dikpati, M., & Brandenburg, A.: 2017, “The global solar dynamo,” Spa. Sci. Rev. 210, 367–395 (arXiv:1602.01754, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
346.  Brandenburg, A.: 2017, “Analytic solution of an oscillatory migratory alpha squared stellar dynamo,” Astron. Astrophys. 598, A117 (arXiv:1611.02671, ADS, DOI, PDF)
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, PDF)
344.  Brandenburg, A., & Kahniashvili, T.: 2017, “Classes of hydrodynamic and magnetohydrodynamic turbulent decay,” Phys. Rev. Lett. 118, 055102 (arXiv:1607.01360, ADS, DOI, PDF, 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, PDF)
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, PDF)
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, PDF)
340.  Brandenburg, A.: 2016, “Stellar mixing length theory with entropy rain,” Astrophys. J. 832, 6 (arXiv:1504.03189, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
332.  Yokoi, N., & Brandenburg, A.: 2016, “Large-scale flow generation by inhomogeneous helicity,” Phys. Rev. E 93, 033125 (arXiv:1511.08983, ADS, DOI, PDF)
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, PDF)
330.  Brandenburg, A.: 2016, “A new twist in simulating solar flares,” Physics 9, 26 (arXiv:1603.01917, ADS, DOI, PDF)
329.  Bhat, P., & Brandenburg, A.: 2016, “Hydraulic effects in a radiative atmosphere with ionization,” Astron. Astrophys. 587, A90 (arXiv:1411.6610, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF, 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, PDF)
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, PDF)
319.  Barekat, A., & Brandenburg, A.: 2014, “Near-polytropic stellar simulations with a radiative surface,” Astron. Astrophys. 571, A68 (arXiv:1308.1660, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
308.  Brandenburg, A.: 2014, “Magnetic Prandtl number dependence of the kinetic-to-magnetic dissipation ratio,” Astrophys. J. 791, 12 (arXiv:1404.6964, ADS, DOI, PDF)
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, PDF)
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, PDF)
305.  Brandenburg, A., & Stepanov, R.: 2014, “Faraday signature of magnetic helicity from reduced depolarization,” Astrophys. J. 786, 91 (arXiv:1401.4102, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
297.  Brandenburg, A., & Lazarian, A.: 2013, “Astrophysical hydromagnetic turbulence,” Spa. Sci. Rev. 178, 163–200 (arXiv:1307.5496, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
289.  Mitra, D., Wettlaufer, J. S., & Brandenburg, A.: 2013, “Can planetesimals form by collisional fusion?” Astrophys. J. 773, 120 (arXiv:1306.3672, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
284.  Candelaresi, S., & Brandenburg, A.: 2013, “Kinetic helicity needed to drive large-scale dynamos” Phys. Rev. E 87, 043104 (arXiv:1208.4529, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
260.  Hubbard, A., & Brandenburg, A.: 2012, “Catastrophic quenching in alpha–Omega dynamos revisited,” Astrophys. J. 748, 51 (arXiv:1107.0238, ADS, DOI, PDF)
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, PDF, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
250.  Plasson, R., Brandenburg, A., Jullien, L., & Bersini, H.: 2011, “Autocatalysis: at the root of self-replication,” Artif. Life 17, 219–236 (DOI, PDF)
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, PDF)
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, PDF)
247.  Brandenburg, A.: 2011, “Nonlinear small-scale dynamos at low magnetic Prandtl numbers,” Astrophys. J. 741, 92 (arXiv:1106.5777, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
241.  Candelaresi, S., & Brandenburg, A.: 2011, “Decay of helical and non-helical magnetic knots,” Phys. Rev. E 84, 016406 (arXiv:1103.3518, ADS, DOI, PDF)
240.  Plasson, R., Brandenburg, A., Jullien, L., & Bersini, H.: 2011, “Autocatalyses,” J. Phys. Chem. A 115, 8073–8085 (arXiv:1006.2634, DOI, PDF)
239.  Brandenburg, A.: 2011, “Chandrasekhar-Kendall functions in astrophysical dynamos,” Pramana J. Phys. 77, 67–76 (arXiv:1103.4976, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
235.  Del Sordo, F., & Brandenburg, A.: 2011, “Vorticity production through rotation, shear, and baroclinicity,” Astron. Astrophys. 528, A145 (arXiv:1008.5281, ADS, DOI, PDF)
234.  Brandenburg, A., & Nordlund, Å.: 2011, “Astrophysical turbulence modeling,” Rep. Prog. Phys. 74, 046901 (arXiv:0912.1340, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
229.  Hubbard, A., & Brandenburg, A.: 2011, “Magnetic helicity flux in the presence of shear,” Astrophys. J. 727, 11 (arXiv:1006.3549, ADS, DOI, PDF)
228.  Brandenburg, A.: 2011, “Dissipation in dynamos at low and high magnetic Prandtl numbers,” Astron. Nachr. 332, 51–56 (arXiv:1010.4805, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
221.  Warnecke, J., & Brandenburg, A.: 2010, “Surface appearance of dynamo-generated large-scale fields,” Astron. Astrophys. 523, A19 (arXiv:1002.3620, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
212.  Plasson, R., & Brandenburg, A.: 2010, “Homochirality and the need for energy,” Orig. Life Evol. Biosph. 40, 93–110 (arXiv:0908.0658, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
206.  Hubbard, A., & Brandenburg, A.: 2009, “Memory effects in turbulent transport,” Astrophys. J. 706, 712–726 (arXiv:0811.2561, ADS, DOI, PDF)
205.  Brandenburg, A.: 2009, “The critical role of magnetic helicity in astrophysical dynamos,” Plasma Phys. Control. Fusion 51, 124043 (arXiv:0909.4377, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
201.  Vermersch, V., & Brandenburg, A.: 2009, “Shear-driven magnetic buoyancy oscillations,” Astron. Nachr. 330, 797–806 (arXiv:0909.0324, ADS, PDF)
*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, PDF)
199.  Käpylä, P. J., & Brandenburg, A.: 2009, “Turbulent dynamos with shear and fractional helicity,” Astrophys. J. 699, 1059–1166 (arXiv:0810.2298, ADS, PDF)
198.  Brandenburg, A.: 2009, “Large-scale dynamos at low magnetic Prandtl numbers,” Astrophys. J. 697, 1206–1213 (arXiv:0808.0961, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
194.  Brandenburg, A.: 2009, “Advances in theory and simulations of large-scale dynamos,” Spa. Sci. Rev. 144, 87–104 (arXiv:0901.0329, ADS, DOI, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
*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, PDF)
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, PDF)
186.  Käpylä, P. J., & Brandenburg, A.: 2008, “Lambda effect from forced turbulence simulations,” Astron. Astrophys. 488, 9–23 (arXiv:0806.3751, ADS, PDF)
185.  Brandenburg, A.: 2008, “The dual role of shear in large-scale dynamos,” Astron. Nachr. 329, 725–731 (arXiv:0808.0959, ADS, PDF)
184.  Brandenburg, A.: 2008, “Turbulent protostellar discs,” Phys. Scr. T130, 014016 (arXiv:0808.0960, ADS, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
179.  Brandenburg, A., & Spiegel, E. A.: 2008, “Modeling a Maunder minimum,” Astron. Nachr. 329, 351–358 (arXiv:0801.2156, ADS, PDF)
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, PDF)
*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, PDF)
176.  Rädler, K.-H., & Brandenburg, A.: 2008, “Alpha–effect dynamos with zero kinetic helicity,” Phys. Rev. E 77, 026405 (arXiv:0801.0602, ADS, PDF)
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, PDF)
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, PDF)
173. Brandenburg, A., Lehto, H. J., & Lehto, K. M.: 2007, “Homochirality in an early peptide world,” Astrobiol. 7, 725–732 (q-bio/0610051, ADS, PDF)
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, PDF)
171. Brandenburg, A., & Subramanian, K.: 2007, “Simulations of the anisotropic kinetic and magnetic alpha effects,” Astron. Nachr. 328, 507–512 (arXiv:0705.3508, ADS, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
163. Brandenburg, A., & Dintrans, B.: 2006, “Nonaxisymmetric stability in the shearing sheet approximation,” Astron. Astrophys. 450, 437–444 (astro-ph/0111313, ADS, PDF)
162. Brandenburg, A.: 2006, “Magnetic helicity in primordial and dynamo scenarios of galaxies,” Astron. Nachr. 327, 123–130 (astro-ph/0601496, ADS, PDF)
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, PDF)
160. Heinemann, T., Dobler, W., Nordlund, Å., & Brandenburg, A.: 2006, “Radiative transfer in decomposed domains,” Astron. Astrophys. 448, 731–737 (astro-ph/0503510, ADS, PDF)
*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, PDF)
158. von Rekowski, B., & Brandenburg, A.: 2006, “Stellar dynamo driven wind braking versus disc coupling,” Astron. Nachr. 327, 53–71 (astro-ph/0504053, ADS, PDF)
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, PDF)
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, PDF)
155. Brandenburg, A.: 2005, “Turbulence and its parameterization in accretion discs,” Astron. Nachr. 326, 787–797 (astro-ph/0510015, ADS, PDF)
154. Multamäki, T., & Brandenburg, A.: 2005, “Spatial dynamics of homochiralization,” Int. J. Astrobiol. 4, 75–80 (q-bio/0505040, ADS, PDF)
*153. Brandenburg, A., & Subramanian, K.: 2005, “Astrophysical magnetic fields and nonlinear dynamo theory,” Phys. Rep. 417, 1–209 (astro-ph/0405052, ADS, DOI, PDF)
152. Brandenburg, A., & Subramanian, K.: 2005, “Minimal tau approximation and simulations of the alpha effect,” Astron. Astrophys. 439, 835–843 (astro-ph/0504222, ADS, PDF)
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, PDF)
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, PDF)
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, PDF)
148. Brandenburg, A., & Subramanian, K.: 2005, “Strong mean field dynamos require supercritical helicity fluxes,” Astron. Nachr. 326, 400–408 (astro-ph/0505457, ADS, DOI, PDF)
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, PDF)
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, PDF)
*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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
140. Brandenburg, A., & Sandin, C.: 2004, “Catastrophic alpha quenching alleviated by helicity flux and shear,” Astron. Astrophys. 427, 13–21 (astro-ph/0401267, ADS, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
*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, PDF)
132. Dintrans, B., & Brandenburg, A.: 2004, “Identification of gravity waves in hydrodynamical simulations,” Astron. Astrophys. 421, 775–782 (astro-ph/0311094, ADS, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
115. Blackman, E. G., & Brandenburg, A.: 2002, “Dynamic nonlinearity in large scale dynamos with shear,” Astrophys. J. 579, 359–373 (astro-ph/0204497, ADS, PDF)
114. Saar, S. H., & Brandenburg, A.: 2002, “A new look at dynamo cycle amplitudes,” Astron. Nachr. 323, 357–360 (astro-ph/0207392, ADS, PDF)
113. Brandenburg, A.& Dobler, W.: 2002, “Solar and stellar dynamos – latest developments,” Astron. Nachr. 323, 411–416 (astro-ph/0207393, ADS, PDF)
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, PDF)
111. Brandenburg, A., & Dobler, W.: 2002, “Hydromagnetic turbulence in computer simulations,” Comp. Phys. Comm. 147, 471–475 (astro-ph/0111569, ADS, PDF)
110. Fogedby, H. C., & Brandenburg, A.: 2002, “Solitons in the noisy Burgers equation,” Phys. Rev. E 66, 016604 (cond-mat/0105100, ADS, PDF)
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, PDF)
108. Dobler, W., Shukurov, A., & Brandenburg, A.: 2002, “Nonlinear states of the screw dynamo,” Phys. Rev. E 65, 036311 (astro-ph/0105484, ADS, PDF)
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, PDF)
106. Arlt, R., & Brandenburg, A.: 2001, “Search for non-helical disc dynamos in simulations,” Astron. Astrophys. 380, 359–372 (astro-ph/0106557, ADS, PDF)
105. Brandenburg, A., & von Rekowski, B.: 2001, “Astrophysical significance of the anisotropic kinetic alpha effect,” Astron. Astrophys. 379, 1153–1160 (astro-ph/0106280, ADS, PDF)
104. Christensson, M., Hindmarsh, M., & Brandenburg, A.: 2001, “Inverse cascade in decaying 3D magnetohydrodynamic turbulence,” Phys. Rev. E 64, 056405 (astro-ph/0011321, ADS, PDF)
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, PDF)
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, PDF)
101. Brandenburg, A.: 2001, “Magnetic mysteries,” Science 292, 2440–2441 (ADS, PDF, 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, PDF)
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, PDF)
*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, PDF)
97. Brandenburg, A., & Dobler, W.: 2001, “Large scale dynamos with helicity loss through boundaries,” Astron. Astrophys. 369, 329–338 (astro-ph/0012472, ADS, PDF)
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, PDF)
95. Brandenburg, A., & Subramanian, K.: 2000, “Large scale dynamos with ambipolar diffusion nonlinearity,” Astron. Astrophys. 361, L33–L36 (astro-ph/0007450, ADS, PDF)
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, PDF)
93. Urpin, V., & Brandenburg, A.: 2000, “Non-linear magnetic diffusivity in mean-field electrodynamics,” Mon. Not. Roy. Astron. Soc. 316, 684–688 (ADS, PDF)
92. Brandenburg, A.: 2000, “Dynamo-generated turbulence and outflows from accretion discs,” Phil. Trans. Roy. Soc. Lond. A 358, 759–776 (ADS, PDF)
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, PDF)
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, PDF)
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, PDF)
88. Sánchez-Salcedo, F. J., & Brandenburg, A.: 1999, “Deceleration by dynamical friction in a gaseous medium,” Astrophys. J. Lett. 522, L35–L38 (ADS, PDF)
87. Rüdiger, G., Brandenburg, A., & Pipin, V. V.: 1999, “A helicity proxy from horizontal solar flow patterns,” Astron. Nachr. 320, 135–140 (ADS, PDF)
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, PDF)
85. Moss, D., & Brandenburg, A.: 1999, “Comment on `The sunspot as a self-excited dynamo',” Astron. Astrophys. 346, 1009–1010 (ADS, PDF)
84. Urpin, V., & Brandenburg, A.: 1999, “Magnetic drift processes in differentially rotating turbulence,” Astron. Astrophys. 345, 1054–1058 (ADS, PDF)
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, PDF)
*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, PDF)
81. Bigazzi, A., Brandenburg, A., & Moss, D.: 1999, “Vortex tube models for turbulent dynamo action,” Phys. Plasmas 6, 72–80 (ADS, PDF)
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, PDF)
79. Bigazzi, A., Brandenburg, A., & Moss, D.: 1998, “Local models of small-scale dynamo action,” J. Phys. IV 8, 183–187 (DOI, PDF)
78. Brandenburg, A., & Schmitt, D.: 1998, “Simulations of an alpha effect due to magnetic buoyancy,” Astron. Astrophys. 338, L55–L58 (ADS, PDF)
77. Korpi, M. J., Brandenburg, A., & Tuominen, I.: 1998, “Driving interstellar turbulence by supernova explosions,” Studia Geophys. et Geod. 42, 410–418 (PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
72. Brandenburg, A., & Urpin, V.: 1998, “Magnetic fields in young galaxies due to the cross-helicity effect,” Astron. Astrophys. 332, L41–L44 (ADS, PDF)
71. Hodgson, L. S., & Brandenburg, A.: 1998, “Turbulence effects in planetesimal formation,” Astron. Astrophys. 330, 1169–1174 (ADS, PDF)
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, PDF)
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, PDF)
68. Urpin, V., & Brandenburg, A.: 1998, “Magnetic and vertical shear instabilities in accretion discs,” Mon. Not. Roy. Astron. Soc. 294, 399–406 (ADS, PDF)
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, PDF)
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, PDF)
63. Zweibel, E. G., & Brandenburg, A.: 1997, “Current sheet formation in the interstellar medium,” Astrophys. J. 478, 563–568 (ADS, PDF)
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, PDF)
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, PDF)
60. Vishniac, E. T., & Brandenburg, A.: 1997, “An incoherent alpha–Omega dynamo in accretion disks,” Astrophys. J. 475, 263–274 (astro-ph/9510038, ADS, PDF)
59. Nordlund, Å., Stein, R. F., & Brandenburg, A.: 1996, “Supercomputer windows into the solar convection zone,” Bull. Astr. Soc. India 24, 261–279 (ADS, PDF)
*58. Beck, R., Brandenburg, A., Moss, D., Shukurov, A., & Sokoloff, D.: 1996, “Galactic magnetism: recent developments and perspectives,” Annu. Rev. Astron. Astrophys. 34, 155–206 (ADS, PDF)
57. Torkelsson, U., Brandenburg, A., Nordlund, Å., & Stein, R. F.: 1996, “The turbulent viscosity in accretion discs,” Astrophys. Letter & Comm. 34, 383–388 (ADS, PDF)
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, PDF)
55. Brandenburg, A.: 1996, “Testing Cowling's anti-dynamo theorem near a rotating black hole,” Astrophys. J. Lett. 465, L115–L118 (ADS, PDF)
*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, PDF)
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, PDF)
*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, PDF)
51. Brandenburg, A., Klapper, I., & Kurths, J.: 1995, “Generalized entropies in a turbulent dynamo simulation,” Phys. Rev. E 52, R4602–R4605 (ADS, PDF)
50. Moss, D., & Brandenburg, A.: 1995, “The generation of nonaxisymmetric magnetic fields in the giant planets,” Geophys. Astrophys. Fluid Dyn. 80, 229–240 (ADS, PDF)
49. Brandenburg, A., Moss, D., & Shukurov, A.: 1995, “Galactic fountains as magnetic pumps,” Mon. Not. Roy. Astron. Soc. 276, 651–662 (ADS, PDF)
48. Brandenburg, A.: 1995, “Flux tubes and scaling in MHD dynamo simulations,” Chaos, Solitons & Fractals 5, 2023–2045 (ADS, PDF)
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, PDF)
46. Torkelsson, U., & Brandenburg, A.: 1995, “Chaos in accretion disk dynamos?” Chaos, Solitons & Fractals 5, 1975–1984 (ADS, PDF)
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, PDF)
*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, PDF)
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, PDF)
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, PDF)
41. Rüdiger, G., & Brandenburg, A.: 1995, “A solar dynamo in the overshoot layer: cycle period and butterfly diagram,” Astron. Astrophys. 296, 557–566 (ADS, PDF)
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, PDF)
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, PDF)
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, PDF)
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, PDF)
36. Brandenburg, A., & Zweibel, E. G.: 1994, “The formation of sharp structures by ambipolar diffusion,” Astrophys. J. Lett. 427, L91–L94 (ADS, PDF)
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, PDF)
34. Torkelsson, U., & Brandenburg, A.: 1994, “Turbulent accretion disk dynamos,” Astron. Astrophys. 283, 677–691 (ADS, PDF)
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, PDF)
32. Moss, D., Brandenburg, A., Donner, K. J., & Thomasson, M.: 1993, “Models for the magnetic field of M81,” Astrophys. J. 409, 179–189 (ADS, PDF)
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, PDF)
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, PDF)
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, PDF)
28. Moss, D., Brandenburg, A., Tavakol, R. K., & Tuominen, I.: 1992, “Stochastic effects in mean field dynamos,” Astron. Astrophys. 265, 843–849 (ADS, PDF)
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, PDF)
26. Brandenburg, A., Moss, D., & Tuominen, I.: 1992, “Stratification and thermodynamics in mean-field dynamos,” Astron. Astrophys. 265, 328–344 (ADS, PDF)
25. Brandenburg, A.: 1992, “Energy spectra in a model for convective turbulence,” Phys. Rev. Lett. 69, 605–608 (ADS, PDF)
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, PDF)
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, PDF)
*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, PDF)
21. Moss, D., & Brandenburg, A.: 1992, “The influence of boundary conditions on the excitation of disk dynamo modes,” Astron. Astrophys. 256, 371–374 (ADS, PDF)
20. Kurths, J., & Brandenburg, A.: 1991, “Lyapunov exponents for hydromagnetic convection,” Phys. Rev. A 44, R3427–R3429 (ADS, PDF)
19. Moss, D., Brandenburg, A., & Tuominen, I.: 1991, “Properties of mean field dynamos with nonaxisymmetric alpha effect,” Astron. Astrophys. 247, 576–579 (ADS, PDF)
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, PDF)
17. Moss, D., Tuominen, I., & Brandenburg, A.: 1991, “Nonlinear nonaxisymmetric dynamo models for cool stars,” Astron. Astrophys. 245, 129–135 (ADS, PDF)
16. Donner, K. J., & Brandenburg, A.: 1990, “Generation and interpretation of galactic magnetic fields,” Astron. Astrophys. 240, 289–298 (ADS, PDF)
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, PDF)
14. Meinel, R., & Brandenburg, A.: 1990, “Behavior of highly supercritical alpha effect dynamos,” Astron. Astrophys. 238, 369–376 (ADS, PDF)
13. Moss, D., Tuominen, I., & Brandenburg, A.: 1990, “Buoyancy limited thin shell dynamos,” Astron. Astrophys. 240, 142–149 (ADS, PDF)
12. Donner, K. J., & Brandenburg, A.: 1990, “Magnetic field structure in differentially rotating discs,” Geophys. Astrophys. Fluid Dyn. 50, 121–129 (ADS, DOI, PDF)
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, PDF)
10. Brandenburg, A., Tuominen, I., & Krause, F.: 1990, “Dynamos with a flat alpha effect distribution,” Geophys. Astrophys. Fluid Dyn. 50, 95–112 (ADS, PDF)
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, PDF)
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, PDF)
7. Moss, D., Tuominen, I., & Brandenburg, A.: 1990, “Nonlinear dynamos with magnetic buoyancy in spherical geometry,” Astron. Astrophys. 228, 284–294 (ADS, PDF)
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, PDF)
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, PDF)
4. Brandenburg, A., Tuominen, I., & Moss, D.: 1989, “On the nonlinear stability of dynamo models,” Geophys. Astrophys. Fluid Dyn. 49, 129–141 (ADS, PDF)
*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, PDF)
2. Brandenburg, A., & Tuominen, I.: 1988, “Variation of magnetic fields and flows during the solar cycle,” Adv. Spa. Sci. 8, 185–189 (ADS, PDF)
1. Brandenburg, A.: 1988, “Hydrodynamic Green's functions for atmospheric oscillations,” Astron. Astrophys. 203, 154–161 (ADS, PDF)