E. Other publications, public outreach, interviews, and other public appearances of the name

75.  Catanzaro, M.: 2024, “COVID-19 scientists who faced huge bills after speaking in webinars win in court,” Science , – (DOI, PDF)
74.  Catanzaro, M.: 2023, “Costly invite? Scientists hit with massive bills after speaking at COVID-19 webinars,” Science 381, 258–259 (DOI, PDF)
73.  Gurgenidze, M., Clarke, E., Kahniashvili, T., & Brandenburg, A., A.: 2023, Circularly Polarized Gravitational Waves from the Ealy Universe as a Probe of New Physics. AAS Meeting #241, id.435.06 Am. Astron. Soc. Meet. #241, id. 435.06. Bull. Am. Astron. Soc., Vol. 55, No. 2 e-id 2023n2i435p06 (ADS)
72.  Sun, G., Clarke, E., Kahniashvili, T., & Brandenburg, A., A.: 2023, Chiral Magnetic Effect and Gravitational Waves in the View of Big Bang Nucleosynthesis. AAS Meeting #241, id.435.06 Am. Astron. Soc. Meet. #241, id. 435.04. Bull. Am. Astron. Soc., Vol. 55, No. 2 e-id 2023n2i215p04 (ADS)
71.  Brandenburg, A.: 2022, “Astrophysical Magnetic Fields: From Galaxies to the Early Universe,” Geophys. Astrophys. Fluid Dyn. 116, 537–539 (ADS, DOI, PDF)
70.  Brandenburg, A., & Hochberg, D.: 2022, “Introduction to Origins of Biological Homochirality,” Orig. Life Evol. Biosph. 52, 1–2 (DOI, ADS, ADS, PDF)
69.  Clarke, E., Kahniashvili, T., Stepp, J., & Brandenburg, A., A.: 2022, Big Bang Nucleosynthesis Limits and Relic Gravitational Wave Detection Prospects. APS April Meeting 2022, abstract id.T14.003 (ADS)
68.  Stepp, J., Kahniashvili, T., Clarke, E., & Brandenburg, A.: 2022, Chiral Magnetic Fields and Gravitational Waves. Am. Astron. Soc. Meet. #240, id. 202.02. Bull. Am. Astron. Soc., Vol. 54, No. 6 e-id 2022n6i202p02 (ADS)
67.  Brandenburg, A.: 2022, Skumanich-55 revisited. Fifty Years of the Skumanich Relations, Proceedings of the conference held 8-11 March 2022 in Boulder, Colorado. Online at https://skumanich.wdrc.org/, id.53 (ADS)
66.  Sinha, S., Gupta, O., Singh, V., Lekshmi, B., Nandy, D., Mitra, D., Chatterjee, S., Bhattacharya, S., Chatterjee, S., Srivastava, N., & Brandenburg, A.: 2021, A Comprehensive Analysis of Machine Learning Approaches for Solar Flare Prediction. AGU Fall Meeting 2021, id. NG45B-0546 (ADS)
65.  Clarke, E., Brandenburg, A., He, Y., & Kahniashvili, T.: 2021, Can We Observe QCD Phase Transition-Generated Gravitational Waves Through Pulsar Timing Arrays?. Am. Astron. Soc. Meet. #238, id. 230.06. Bull. Am. Astron. Soc., Vol. 53, No. 6 e-id 2021n6i230p06 (ADS)
64.  He, Y., Brandenburg, A., Kahniashvili, T., Rheinhardt, M., & Schober, J.: 2021, Relic Gravitational Waves From The Chiral Magnetic Effect. Am. Astron. Soc. Meet. #238, id. 230.05. Bull. Am. Astron. Soc., Vol. 53, No. 6 e-id 2021n6i230p05 (ADS)
63.  Mtchedlidze, S., Domínguez-Fernández, P., Du, X., Brandenburg, A., & Kahniashvili, T.: 2021, Primordial Magnetic Fields through Large Scale Structure. Am. Astron. Soc. Meet. #238, id. 230.05. Bull. Am. Astron. Soc., Vol. 53, No. 6 e-id 2021n6i109p09 (ADS)
62.  Brandenburg, A.: 2020, Magnetic Helicity: diagnostic signatures and effects. American Geophysical Union, Fall Meeting 2020, abstract #NG011-02 (ADS)
61.  Shukurov, A., Brandenburg, A., Brooke, J., Sokoloff, D., & Tavakol, R.: 2020, “David Moss (1943-2020),” Astron. Geophys. 61, 4.12 (ADS, DOI, PDF)
60.  Brandenburg, A., & Rüdiger, G.: 2020, “Karl-Heinz Rädler (1935–2020),” Astron. Nachr. 341, 365 (ADS, DOI, PDF)
59.  Bhat, P., Subramanian, K., & Brandenburg, A.: 2019, “Efficient quasi-kinematic large-scale dynamo as the small-scale dynamo saturates,” Phys. Rev. Lett., submitted (arXiv:1905.08278, ADS, HTML, PDF)
58.  Pusztai, I., Sundstrom, A., Brandenburg, A., Juno, J., Tenbarge, J. M., & Hakim, A.: 2019, Towards a fully kinetic dynamo simulation. APS Division of Plasma Physics Meeting 2019, abstract id.CP10.025 (ADS)
57.  Mandal, S., Brandenburg, A., Durrer, R., Kahniashvili, T., Roper Pol, A.; Tevzadze, A., Vachaspati, T., & Yin, W.: 2019, The evolution of primordial magnetic fields due to magnetohydrodynamic turbulence, and their cosmological applications. APS April Meeting 2019, abstract id.B11.001 (ADS)
56.  Brandenburg, A.: 2019, Learning about solar/stellar dynamo physics from the variability. Sol. Atmosph. Interplan. Env., http://shinecon.org/shine2019/ViewAbstract.php?idabs=526 (ADS, HTML)
55.  EPIC 206038483, the 60th planetary system confirmed with the extended Kepler K2 mission (K2-60), adopted by Travis Metcalfe for Axel Brandenburg on the occasion of his 60th anniversary (http://adoptastar.org/planetary-systems-k2/, HTML, PDF)
54.  Giampapa, M. S., Cody, A. M., Brandenburg, A., Skiff, B. A., & Hall, J. C.: 2017, “The rotation and chromospheric activity of the solar-type stars in the open cluster M67,” Astrophys. J., submitted (HTML)
53.  Li, X.-Y., Brandenburg, A., Svensson, G., Haugen, N., & Rogachevskii, I.: 2017, Turbulence effect on coagulational growth of cloud droplets. American Geophysical Union, Fall Meeting 2017, abstract #A11I-1984 (ADS)
52.  Li, X.-Y., Brandenburg, A., Svensson, G., Haugen, N., & Rogachevskii, I.: 2017, Turbulence effect on coagulational growth of cloud droplets. APS Division of Fluid Dynamics (Fall) 2017, abstract id.L16.004 (ADS)
51.  Brandenburg, A., Petrie, G., & Singh, N.: 2016, Two-scale Analysis of Solar Magnetic Helicity. SDO 2016: Unraveling the Sun's Complexity, Proceedings of the conference held 17-21 October, 2016 in Burlington, VT. Online at http://sdo-2016.lws-sdo-workshops.org/, id.110 (ADS)
50.  Yokoi, N., & Brandenburg, A.: 2016, Vortex generation due to inhomogeneous turbulent helicity. EGU General Assembly 2016, 17-22 April, Vienna Austria, p.8135 (ADS, PDF)
49.  Cauzzi, G., Shchukina, N., Kosovichev, A., Bianda, M., Brandenburg, A., Chou, D.-Y., Dasso, S., Ding, M.-D., Jefferies, S., Krivova, N., Kuznetsov, V. D., & Moreno-Insertis, F.: 2016, “Commission 12: Solar Radiation and Structure,” Trans. IAU 29A, 278–299 (ADS)
48.  Boosting solar physics. Article by Travis Metcalfe on DKIST/NSO with interview of Axel Brandenburg (http://www.boulderweekly.com/features/lab-notes/boosting-solar-physics)
47.  Brandenburg, A., Zhang, H., & Sokoloff, D.: 2016, The magnetic helicity spectrum from solar vector magnetograms. Am. Astron. Soc., SPD mtg 47, id. 201.03 (ADS)
46.  Anders, E. H., Brown, B., Brandenburg, A., & Rast, M.: 2016, The structure and evolution of boundary layers in stratified convection. Am. Astron. Soc., SPD mtg 47, id. 7.12 (ADS)
45.  Singh, N., Raichur, H., & Brandenburg, A.: 2016, High-wavenumber solar f-mode strengthening prior to active region formation. Am. Astron. Soc., SPD mtg 47, id. 7.11 (ADS)
44.  Cataldi, G., Brandeker, A., Thebault, P., Singer, K., Ahmed, E., Brandenburg, A., Olofsson, G., & de Vries, B.: 2015, “Characterizing the three-dimensional ozone distribution of a tidally locked Earth-like planet,” in Pathways Towards Habitable Planets, Proceedings of a conference held 13-17 July, ed. Dawn Gelino, Bern, Switzerland, 49 (ADS)
43.  Yokoi, N., & Brandenburg, A.: 2015, Large-scale flow generation due to inhomogeneous turbulent helicity. American Geophysical Union, Fall Meeting 2015, abstract NG33A-1847 (ADS)
42.  Brandenburg, A.: 2015, “Magnetohydrodynamics of the Sun. By E.R. Priest, Cambridge Univ. Press,” Geophys. Astrophys. Fluid Dyn. 109, 615–616 (ADS, DOI, PDF)
41.  Kosovichev, A., Cauzzi, G., Pillet, V. M., Asplund, M., Brandenburg, A., Chou, D.-Y., Christensen-Dalsgaard, J., Gan, W., Kuznetsov, V. D., Rovira, M. G., Shchukina, N., Venkatakrishnan, P.: 2015, “Division II: Commission 12: Solar Radiation and Structure,” Trans. IAU T28 10, 109–111 (ADS, PDF)
40.  Kemel, K., Brandenburg, A., Kleeorin, N., Mitra, D., & Rogachevskii, I.: 2014, “Active region formation through the negative effective magnetic pressure instability,” in Solar Dynamics and Magnetism from the Interior to the Atmosphere, ed. N. N. Mansour, A. G. Kosovichev, R. Komm, & D. Longcope, Springer–New York, pp. 293–313 (arXiv:1203.1232, ADS, DOI, PDF) (Reprint from journal publication listed above as A.292)
39.  Brandenburg, A.: 2014, “Sökandet efter en ny teori för solfläckar,” Fysikaktuellt 2014-1, 22–23
http://www.fysikersamfundet.se/Fysikaktuellt/2014_1.pdf
38.  Brandenburg, A., & Lazarian, A.: 2014, “Astrophysical hydromagnetic turbulence,” in Microphysics of Cosmic Plasmas, Space Sciences Series of ISSI, Volume 47, ed. A. Balogh, A. Bykov, P. Cargill, R. Dendy, T. Dudok de Wit, & J. Raymond, Springer Science+Business Media New York, pp. 87–124 (arXiv:1307.5496, ADS, DOI, PDF) (Reprint from journal publication listed above as A.297)
37.  Bykov, A. M., Brandenburg, A., Malkov, M. A., & Osipov, S. M.: 2014, “Microphysics of cosmic ray driven plasma instabilities,” in Microphysics of Cosmic Plasmas, Space Sciences Series of ISSI, Volume 47, ed. A. Balogh, A. Bykov, P. Cargill, R. Dendy, T. Dudok de Wit, & J. Raymond, Springer Science+Business Media New York, pp. 125–156 (arXiv:1304.7081, ADS, DOI, PDF) (Reprint from journal publication listed above as A.296)
36. Brandenburg, A., & Rogachevskii, I.: 2013, “Introduction to Special Issue: From Mean-Field to Large-Scale Dynamos,” Geophys. Astrophys. Fluid Dyn. 107, 1–2 (DOI, PDF)
35. “Towards an understanding of the Sun's Butterfly Diagram,” public outreach article by Sabine Hossenfelder on her blog http://backreaction.blogspot.jp/ of 8 October 2012.
http://backreaction.blogspot.jp/2012/10/towards-understanding-of-suns-butterfly.html
34. Kosovichev, A., Lundstedt H., & Brandenburg, A.: 2012, “Special issue on current research in astrophysical magnetism,” Phys. Scr. 86, 010201 (ADS, DOI, PDF)
33. Chian, A. C.-L., Brandenburg, A., Proctor, M. R. E., & Rempel, E. L.: 2012, “On-off intermittency and Lagrangian coherent structures in solar dynamo,” Geophys. Res. Abstracts 14, 2444 (ADS, PDF)
32. Kosovichev, A., Cauzzi, G., Pillet, V. M., Asplund, M., Brandenburg, A., Chou, D.-Y., Christensen-Dalsgaard, J., Gan, W., Kuznetsov, V. D., Rovira, M. G., Shchukina, N., Venkatakrishnan, P.: 2012, “Commission 12: Solar Radiation and Structure,” Transactions IAU 7, 81–94 (ADS, PDF)
31. Brandenburg, A., & Dobler, W.: 2010, Pencil Code: Finite-difference Code for Compressible Hydrodynamic Flows, Astrophysics Source Code Library, record ascl:1010.060 (ADS)
30. “Cycles of the Sun,” Interview with Axel Brandenburg by British Publishers, January 2010, also published in EU Research, “The latest research from FP7,” pp. 114-115, June 2010, www.euresearch.com
http://www.nordita.org/~brandenb/AstroDyn/material/Solar_Activity_10.pdf
29. Plasson, R., Bersini, H., & Brandenburg, A.: 2009, “Emergence of protometabolisms and the self-organization of non-equilibrium reaction networks,” Orig. Life Evol. Biosph. 39, 263–264 (PDF)
28. Brandenburg, A., 2009, Res. Astron. Astrophys. 9, “A record low in solar activity inspires theorists about grand minima” (PDF, HTML)
http://www.raa-journal.org/docs/newsandviews/0909_newsandviews_abrandenburg.html
27. Kosovichev, A.G., Arlt, R., Bonanno, A., Brandenburg, A., Brun, A.S., Busse, F., Dikpati, M., Hill, F., Gilman, P.A., Nordlund, A., Rüdiger, G., Stein, R.F., Sekii, T., Stenflo, J.O., Ulrich, R.K., Zhao, J.: 2009, “Solar dynamo and magnetic self-organization,” in Astro2010: The Astronomy and Astrophysics Decadal Survey, ed. Science White Papers, No. 160, pp. 1–8 (ADS, PDF)
26. Green, C., Brandenburg, A., & Kosovichev, A.: 2008, Non-linear Modeling of Wavelike Behaviour of Supergranulation. Am. Geophys. Union, Spring Meeting 2008, abstract SP21A-04 (ADS)
25. Interview with Axel Brandenburg by the Swedish Research Council (Siv Engelmark Cederborg), 2008 (HTML)
24. Plasson, R., Bersini, H., & Brandenburg, A.: 2008, Decomposition of complex reaction networks into reactons (arXiv:0803.1385, ADS, PDF)
23. Podcast with Simon Mitton interviewing Axel Brandenburg: 2008, Is All Life Left-Handed? (HTML)
22. Publication based on text by Brandenburg, A., & Käpylä, P. J.: 2007, Uusimmat turbulenssilaskut osoittavat pullonkaulaefektin olevan aito. CSC Uutiset (HTML)
21. Brandenburg, A., Lehto, H. J., & Lehto, K. M.: 2007, “Origin of homochirality in an early peptide world,” Int. J. Astrobiol. 6, 80–80 (PDF)
20. Brandenburg, A., Andersen, A. C., & Multamäki, T.: 2006, “Homochirality and the moment when life came about,” BioZoom 9/2, 8–11 (PDF, HTML)
19. Brandenburg, A., Andersen, A. C., & Multamäki, T.: 2006, “Homochirality – The problem of left handed amino acids,” Gamma 142, 22–31 (PDF)
18. Poole, A. M., Hode, T., Brandenburg, A., Hjalmarson, Å., & Holm, N. G.: 2006, “Life up North,” Astrobiol. 6, 815–818 (PDF)
17. Andersen, A. C., Brandenburg, A., & Multamäki, T.: 2005, “Er det en naturlov at aminosyrer er venstredrejede?” Kvant 9/16, 18–21 (PDF)
16. Andersen, A. C., & Brandenburg, A.: 2005, “Nordisk astrobiologi,” BioZoom 8/2, 7–8 (PDF, HTML)
15. Andersen, A. C., & Brandenburg, A.: 2005, “Editorial: astrobiological problems for physicists and biologists,” Int. J. Astrobiol. 4, 1–2 (ADS, PDF)
14. Brandenburg, A.: 2004, “Magnetohydrodynamic Turbulence. By Dieter Biskamp. Cambridge University Press, 2003. 310 pp,” J. Fluid Mech. 503, 378–379 (ADS, PDF)
13. Brandenburg, A., Andersen, A. C., Höfner, S., & Nilsson, M.: 2004, “Homochiral growth through enantiomeric cross-inhibition,” Int. J. Astrobio. Suppl. 3, 106–106
12. Brandenburg, A., Andersen, A. C., Höfner, S., & Nilsson, M.: 2004, “Homochiral growth through enantiomeric cross-inhibition,” Geochimica et Cosmochimica Acta 68, A792–A792
11. von Rekowski, B., & Brandenburg, A.: 2003, “Outflows and accretion in a protostellar star-disc system,” Astron. Nachr. 324, 68–68 (ADS)
10. Brandenburg, A.: 2002, The solar dynamo: worrying about magnetic helicity. Presented at the KITP Conference: Observational Challenges for the Next Decade of Solar Magnetohydrodynamics, Jan 16, 2002, Kavli Institute for Theoretical Physics, University of California, Santa Barbara ADS
9. Brandenburg, A.& Boldyrev, S. H.: 2001, “Burgers Turbulence and the Problem of Star Formation,” Bull. Am. Astron. Soc. 199, 149.01 (ADS)
8. Brandenburg, A.& Boldyrev, S. H.: 2000, “Small-scale kinematic dynamo with helicity,” Bull. Am. Phys. Soc. 42, BP1.059 (ADS)
7. Saar, S. H. & Brandenburg, A.: 1998, “Time evolution of the magnetic activity cycle period: results for an expanded stellar sample,” Bull. Am. Astron. Soc. 193, 4404 (ADS)
6. Stein, R. F., Bercik, D. J., Brandenburg, A., Georgobiani, D., Nordlund, Å.: 1997, “Solar Magneto-Convection,” Bull. American Astron. Soc. 74, 17–17 (ADS)
5. Vishniac, E. T., & Brandenburg, A.: 1995, “An incoherent alpha–Omega dynamo mechanism for accretion disks,” Bull. Am. Astron. Soc. 187, 10409 (ADS)
4. Brandenburg, A., Tuominen, I., & Ruokolainen, J.: 1991, “Simulating solar hydromagnetism,” /csc/news 3, 3–5
3. Brandenburg, A., Krause, F., Moss, D., & Tuominen, I.: 1991, “Can the Lorentz force accelerate magnetic field expansion?” Astron. Ges. Abstr. Ser. 6, 32–32 (ADS, PDF)
2. Brandenburg, A.: 1991, “Challenges for solar dynamo theory: alpha effect, differential rotation and stability,” Nachr. Akad. Wiss. Göttingen II. Mathem. Phys. Klasse 2, 16–17 (ADS)
1. Donner, K. J., Brandenburg, A.: 1990, “Structure of dynamo generated galactic magnetic fields,” in Proc. Nordic-Baltic Astronomy Meeting, ed. C.-I. Lagerkvist, D. Kiselman & M. Lindgren, Uppsala Univ. (Sweden), Astronomiska Observatoriet, 16 (ADS)
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