Refereed Publications

• Constrained Motion Problems With Applications. Master’s thesis, University of Houston, 1993.

• Constrained motion problems with applications by nonlinear programming methods, R. Glowinski and M. Holmström. Surveys on Mathematics for Industry, 5:75-108. Springer-Verlag, 1995.

• Parallelizing the fast wavelet transform, Mats Holmström. Parallel Computing, 11(21):1837–1848. Elsevier, 1995.

• Wavelet Based Methods for Time Dependent PDEs. Doctoral thesis, Uppsala University, 1997.

• Adaptive wavelet methods for hyperbolic PDEs, M. Holmström and Johan Waldén. Journal of Scientific Computing, 1(13):19–49. Plenum, 1998.

• Solving hyperbolic PDEs using interpolating wavelets, Mats Holmström, SIAM Journal on Scientific Computing, 2(21):405–420, 1999.

• Extraction of a deterministic component from ROSAT X-ray data using a wavelet transform and the principal component analysis, L. Liszka and M. Holmström. Astronomy & Astrophysics Supplement Series, 140:125–134, 1999.

• Solving hyperbolic PDEs using conservative subdivision schemes, Proceedings of the 3rd European Conference: Numerical Mathematics and Advanced Applications, 542–547. World Scientific, 2000.

• X-ray imaging of the solar wind—Mars interaction, M. Holmström, S. Barabash and E. Kallio, Geophysical Research Letters, 7(28):1287–1290, 2001.

• Energetic neutral atoms at Mars: I. Imaging of solar wind protons, M. Holmström, S. Barabash and E. Kallio, Journal of Geophysical Research-Space Physics, Vol. 107, No. 10, 2002.

• Energetic neutral atoms at Mars IV: Imaging of planetary oxygen, S. Barabash, M. Holmström, A. Lukyanov and E. Kallio, Journal of Geophysical Research-Space Physics, Vol. 107, No. 10, 2002.

• The D-CIXS X-ray mapping spectrometer on SMART-1, M. Grande et al., Planetary and Space Science, 51, 427-433, 2003.

• Scientific rationale for the D-CIXS X-ray spectrometer on board ESA’s SMART-1 mission to the Moon, S.K. Dunkin et al., Planetary and Space Science, 51, 427-433, 2003.

• X rays from solar wind charge exchange at Mars: A comparison of simulations and observations, H. Gunell, M. Holmström, E. Kallio, P. Janhunen, K. Dennerl, Geophysical Research Letters, vol. 31, L22801, 2004. doi:10.1029/2004GL020953

• The solar wind interaction with Venus and Mars: Energetic neutral atom and X-ray imaging, Mats Holmström and Esa Kallio, Advances in Space Research, 33(2):187-193, 2004.

• Energetic Neutral Atom imaging at Mercury, A. Lukyanov, S. Barabash, and M. Holmström. Advances in Space Research, 33(11):1888-1896, 2004.

• Fast Visualization of Volume Emissions using Conservative Subdivision, Mats Holmström, Mathematics and Computers in Simulation, 6(64):631-642, 2004.

• Charge-exchange processes at Mars: ENAs and X-rays, E. Kallio and M. Holmström, in Mars’ Magnetism, and Its Interaction with the Solar Wind, Winterhalter et al., Space Sciences Series of ISSI, Springer, 2004.

• Solar Wind-Induced Atmospheric Erosion at Mars: First Results from ASPERA-3 on Mars Express, R. Lundin, S. Barabash, H. Andersson, M. Holmström et al., Science, 305, 1933-1936, 2004.

• Planetary ENA Imaging: Venus and a comparison with Mars, H. Gunell, M. Holmström, H. K. Biernat, and N. V. Erkaev, Planetary and Space Science, 53, 433–441, 2005. doi:10.1016/j.pss.2004.07.021

• Simulations of X-rays from Solar Wind Charge Exchange at Mars: Parameter dependence, H. Gunell, M. Holmström, E. Kallio, P. Janhunen, K. Dennerl, Advances in Space Research, 36(11):2057-2065, 2005. doi:10.1016/j.asr.2005.06.007

• Low Energy Neutral Atom Imaging on the Moon with the SARA Instrument aboard Chandrayaan-1 Mission, Anil Bhardwaj, Stas Barabash, Yoshifumi Futaana, Yoichi Kazama, Kazushi Asamura, David McCann, R. Sridharan, Mats Holmstrom, Peter Wurz, and Rickard Lundin. Journal of Earth System Science, v. 114, n. 6, 2005, 749–760, Indian Academy of Sciences.

• Aspects of solar wind interaction with Venus, H.K. Biernat, N.V. Erkaev, I.L. Arshukova, C.J. Farrugia, H. Lammer, T. Penz, U.V. Amerstorfer, D.F. Vogl, T. Zhang, K. Schwingenschuh, R. Nakamura, W. Baumjohann, H. Gunell, M. Holmström, E. Kallio, S. Orsini, A. Milillo, K. Gether, and M. Leitner, in Solar-Planetary Relations, H.K. Biernat, H. Lammer, D.F. Vogl, and S. Mühlbachler Eds., Research Signpost, 153–208, 2005.

• MHD modeling of the interaction between the solar wind and solar system objects, Andreas Ekenbäck and Mats Holmström, in PARA 2004, J. Dongarra, K. Madsen, and J. Waśniewski, Eds., Lecture Notes in Computer Science 3732, 554-562, Springer-Verlag, 2006. doi:10.1007/11558958_66

• Planetary ENA imaging: Effects of different interaction models for Mars, H. Gunell, M. Holmström, S. Barabash, E. Kallio, P. Janhunen, A.F. Nagy, and Y. Ma, Planetary and Space Science, 54(2):117-131, 2006.

• Energetic Neutral Atom Imaging Mass Spectroscopy of the Moon and Mercury Environments, Y. Kazama, S. Barabash, A. Bhardwaj, K. Asamura, Y. Futaana, M. Holmström, R. Lundin, R. Sridharan, and P. Wurz, Advances in Space Research, 37(1):38-44, 2006. doi:10.1016/j.asr.2005.05.047

• Observations in the Shadow of Mars by the Neutral Particle Imager, M. Holmström, K. Brinkfeldt, S. Barabash, and R. Lundin, in Advances in Geosciences. Volume 3: Planetary Science (PS), W.H. Ip, and A. Bhardwaj Eds., 119-134, World Scientific Publication Company, 2006. ISBN 981-256-983-8.

• Low Energy Neutral Atoms Imaging of the Moon, Yoshifumi Futaana, Stas Barabash, Mats Holmström, and Anil Bhardwaj, Planetary and Space Science, 54(2):132–143, 2006.

• Plasma Acceleration above Martian Magnetic Anomalies, R. Lundin, D. Winningham, S. Barabash, R. Frahm, M. Holmström, et al., Science, 311, 980–983, 2006.

• First observation of Mars with XMM-Newton - High resolution X-ray spectroscopy with RGS, K. Dennerl, C.M. Lisse, A. Bhardwaj, V. Burwitz, J. Englhauser, H. Gunell, M. Holmström, F. Jansen, V. Kharchenko and P.M. Rodriguez-Pascual, Astronomy & Astrophysics, 451, 709-722, 2006.

• First ENA observations at Mars: Subsolar ENA jet, Y. Futaana, S. Barabash, A. Grigoriev, M. Holmström, et al., Icarus, 182(2):413-423, 2006.

• Mass composition of the escaping plasma at Mars, E. Carlsson, A. Fedorov, S. Barabash, E. Budnik, A. Grigoriev, H. Gunell, H. Nilsson, J.-A. Sauvaud, R. Lundin, Y. Futaana, M. Holmström, et al., Icarus, 182(2):320-328, 2006.

• First ENA observations at Mars: ENA emissions from the Martian upper atmosphere, Y. Futaana, S. Barabash, A. Grigoriev, M. Holmström, et al., Icarus, 182(2):424-430, 2006.

• Plasma Intrusion above Mars Crustal Fields—Mars Express ASPERA-3 Observations, Markus Fränz, J. D. Winningham, E. Dubinin, E. Roussos, J. Woch, S. Barabash, R. Lundin, M. Holmström, et al., Icarus, 182(2):406-412, 2006.

• Observations of magnetic anomaly signatures in Mars Express ASPERA-3 ELS data, Y. Soobiah, A. J. Coates, D. R. Linder, D. O. Kataria, J. D. Winningham, R. A. Frahm, J. R. Sharber, J. Scherrer, S. Barabash, R. Lundin, M. Holmström, et al., Icarus, 182(2):396-405, 2006.

• Erratum to Observations of magnetic anomaly signatures in Mars Express ASPERA-3 ELS data, Y. Soobiah, A. J. Coates, D. R. Linder, D. O. Kataria, J. D. Winningham, R. A. Frahm, J. R. Sharber, J. Scherrer, S. Barabash, R. Lundin, M. Holmström, et al., Icarus, 187(2):623–625, 2007.

• Carbon dioxide photoelectron energy peaks at Mars, R. A. Frahm, J. D. Winningham, J. R. Sharber, J. R. Scherrer, S. J. Jeffers, A. J. Coates, D. R. Linder, D. O. Kataria, R. Lundin, S. Barabash, M. Holmström, et al., Icarus, 182(2):371-382, 2006.

• First ENA observations at Mars: Solar–wind ENAs on the nightside, K. Brinkfeldt, H. Gunell, P. C:son Brandt, S. Barabash, R.A. Frahm, J.D. Winningham, E. Kallio, M. Holmström, et al., Icarus, 182(2):439-447, 2006.

• Electric fields within the martian magnetosphere and ion extraction: ASPERA-3 observations, E. Dubinin, R. Lundin, M. Fränz, J. Woch, S. Barabash, A. Fedorov, D. Winningham, N. Krupp, J.-A. Sauvaud, M. Holmström, et al., Icarus, 182(2):337-342, 2006.

• Solar wind plasma protrusion into the martian magnetosphere: ASPERA-3 observations, E. Dubinin, D. Winningham, M. Fränz, J. Woch, R. Lundin, S. Barabash, A. Fedorov, R. Frahm, J. Sharber, A. Coates, N. Krupp, J.-A. Sauvaud, M. Holmström, et al., Icarus, 182(2):343-349, 2006.

• Structure of the martian wake, A. Fedorov, E. Budnik, J.-A. Sauvaud, C. Mazelle, S. Barabash, R. Lundin, M. Acuña, M. Holström, et al. Icarus, 182(2):329-336, 2006.

• First ENA observations at Mars: Charge exchange ENAs produced in the magnetosheath, H. Gunell, K. Brinkfeldt, M. Holmström, et al., Icarus, 182(2):431-438, 2006.

• Ion escape at Mars: Comparison of a 3-D hybrid simulation with Mars Express IMA/ASPERA-3 measurements, E. Kallio, A. Fedorov, E. Budnik, T. Säles, P. Janhunen, W. Schmidt, H. Koskinen, P. Riihelä, S. Barabash, R. Lundin, M. Holmström, et al., Icarus, 182(2):350-359, 2006.

• Numerical interpretation of high-altitude photoelectron observations, Michael W. Liemohn, R. Frahm, J. D. Winningham, Y. Ma, S. Barabash, R. Lundin, J. U. Kozyra, A. F. Nagy, S. M. Bougher, J. Bell, D. Brain, D. Mitchell, J. Luhmann, M. Holmström, et al., Icarus, 182(2):383-395, 2006.

• Electron oscillations in the induced martian magnetosphere, J. D. Winningham, R. A. Frahm, J. R. Sharber, A. J. Coates, D. R. Linder, Y. Soobiah, E. Kallio, J. R. Espley, R. Lundin, S. Barabash, M. Holmström, et al., Icarus, 182(2):360-370, 2006.

• Energetic Neutral Atoms (ENA) at Mars: Properties of the hydrogen atoms produced upstream of the Martian bow shock and implications for ENA sounding technique around non-magnetized planets, E. Kallio, S. Barabash, K. Brinkfeldt, H. Gunell, M. Holmström, et al., Icarus, 182(2):448-463, 2006.

• Ionospheric Plasma Acceleration at Mars: ASPERA-3 results, R. Lundin, D. Winningham, S. Barabash, R. Frahm, H. Andersson, M. Holmström, et al., Icarus, 182(2):308-319, 2006.

• Direct Measurements of Energetic Neutral Hydrogen in the Interplanetary Medium, A. Galli, P. Wurz, S. Barabash, A. Grigoriev, R. Lundin, Y. Futaana, H. Gunell, M. Holmström, et al. The Astrophysical Journal, 644:1317-1325, 2006.

• Loss of hydrogen and oxygen from the upper atmosphere of Venus, H. Lammer, H. I. M. Lichtenegger, H. K. Biernat, N. V. Erkaev, I. L. Arshukova, C. Kolb, H. Gunell, A. Lukyanov, M. Holmstrom, S. Barabash, T. L. Zhang, and W. Baumjohann, Planetary and Space Science, 54(13-14):1445-1456, 2006. doi:10.1016/j.pss.2006.04.022

• Asymmetries in Mars’ Exosphere: Implications for X-ray and ENA Imaging, M. Holmström, Space Science Reviews, 126(1–4):435–445, 2006.

• The Hydrogen Exospheric Density Profile Measured with ASPERA-3/NPD, A. Galli, P. Wurz, H. Lammer, H.I.M. Lichtenegger, R. Lundin, S. Barabash, A. Grigoriev, M. Holmström, H. Gunell, Space Science Reviews, 126(1–4):447–467, 2006.

• Energetic Hydrogen and Oxygen Atoms Observed on the Nightside of Mars, A. Galli, P. Wurz, S. Barabash, A. Grigoriev, H. Gunell, R. Lundin, M. Holmström, and A. Fedorov, Space Science Reviews, 126(1–4):267–297, 2006.

• Locations of Atmospheric Photoelectron Energy Peaks within the Mars Environment, R.A. Frahm, J.R. Sharber, J.D. Winningham, P. Wurz, M.W. Liemohn, E. Kallio, M. Yamauchi, R. Lundin, S. Barabash, A.J. Coates, D.R. Linder, J.U. Kozyra, M. Holmström, S.J. Jeffers, H. Andersson, S. McKenna-Lawler, Space Science Reviews, 126(1–4):389–402, 2006.

• Simulations of Solar Wind Charge Exchange X-ray emissions at Venus, H. Gunell, E. Kallio, R. Jarvinen, P. Janhunen, M. Holmström, K. Dennerl, Geophysical Research Letters, 34, L03107, 2007. doi:10.1029/2006GL028602.

• First observation of energetic neutral atoms in the Venus environment, A. Galli, P. Wurz, P. Bochsler, S. Barabash, A. Grigoriev, Y. Futaana, M. Holmström, et al., Planetary and Space Science, 56(6):807–811, 2008.

• Ionospheric Photoelectrons at Venus: Initial Observations by ASPERA-4 ELS, A. J. Coates, R. A. Frahm, D. R. Linder, D. O. Kataria, Y. Soobiah, G. Collinson, J. R. Sharber, J. D. Winningham, S. J. Jeffers, S. Barabash, J.A. Sauvaud, R. Lundin, M. Holmström, et al., Planetary and Space Science, 56(6):802–806, 2008.

• The Venusian induced magnetosphere: A case study of plasma and magnetic field measurements on the Venus Express mission, Kallio, E., T.L. Zhang, S. Barabash, R. Jarvinen, I. Sillanpää, P. Janhunen, A. Fedorov, J.A. Sauvaud, C. Mazelle, J.J. Thocaven H. Gunell, H. Andersson, A. Grigoriev, K. Brinkfeldt, Y. Futaana, M. Holmström, R. Lundin, M. Yamauchi, et al., Planetary and Space Science, 56(6):796–801, 2008.

• Mars Express/ASPERA-3/NPI and IMAGE/LENA observations of energetic neutral atoms in Earth and Mars orbit, M. Holmström, M.R. Collier, S. Barabash, K. Brinkfeldt, T.E. Moore, and D. Simpson, Advances in Space Research, 41(2):343–350, 2007. doi: 10.1016/j.asr.2007.09.011

• Auroral Plasma Acceleration above Martian Magnetic Anomalies, R. Lundin, D. Winningham, S. Barabash, R. Frahm, D. Brain, H. Nilsson, M. Holmström, et al., Space Science Reviews, 126(1–4):333–354, 2006.

• The Analyzer of Space Plasmas and Energetic Atoms (ASPERA-3) for the Mars Express Mission, S. Barabash, R. Lundin, H. Andersson, K. Brinkfeld, A. Grigoriev, H. Gunell, M. Holmström, et al., Space Science Reviews, 126(1–4):113–164, 2006.

• Energisation of O+ and O2+ ions at Mars: An analysis of a 3-D quasi-neutral hybrid model simulation, E. Kallio, A. Fedorov, S. Barabash, P. Janhunen, H. Koskinen, W. Schmidt, R. Lundin, H. Gunell, M. Holmström, Y. Futaana, M. Yamauchi, A. Grigoriev, J. D. Winningham, R. Frahm, J. R. Sharber. Space Science Reviews, 126(1–4):39–62, 2006.

• IMF direction derived from cycloid-like ion distribution observed by Mars Express, M. Yamauchi, Y. Futaana, A. Fedorov, E. Dubinin, R. Lundin, J.-A. Sauvaud, D. Winningham, R. Frahm, S. Barabash, M. Holmstrom, et al., Space Science Reviews, 126(1–4):239–266, 2006.

• The Analyzer of Space Plasmas and Energetic Atoms (ASPERA-4) for the Venus Express Mission, S. Barabash, J.-A. Sauvaud, H. Gunell, H. Andersson, A. Grigoriev, K. Brinkfeldt, M. Holmström, et al., Planetary and Space Science, 55(12):1772–1792, 2007.

• The loss of ions from Venus through the plasma wake, S. Barabash, A. Fedorov, J.J. Sauvaud, R. Lundin, C.T. Russell, Y. Futaana, T.L. Zhang, H. Andersson, K. Brinkfeldt, A. Grigoriev, M. Holmström, M. Yamauchi, et al., Nature, 450, 650–653, 2007.

• Energetic neutral atoms as the explanation for the high velocity hydrogen around HD 209458b, M. Holmström, A. Ekenbäck, F. Selsis, T. Penz, H. Lammer, and P. Wurz, Nature, 451, 970–972, 2008.
  Supplementary information at www.nature.com

• Location of the bow shock and ion composition boundaries at Venus — initial determinations from Venus express ASPERA-4, C. Martinecz, M. Fränz, J. Woch, N. Krupp, E. Roussos, E. Dubinin, U. Motschmann, S. Barabash, R. Lundin, M. Holmström, et al., Planetary and Space Science, 56(6):780–784, 2008.

• Mars Express and Venus Express multi-point observations of geoeffective solar flare events in December 2006, Y. Futaana, S. Barabash, M. Yamauchi, S. McKenna-Lawlor, J.G. Luhmann, D. Brain, E. Carlsson, J.-A. Sauvaud, J.D. Winningham, R.A. Frahm, P. Wurz, M. Holmström, et al, Planetary and Space Science, 56(6):873–880, 2008.

• Comparative analysis of Venus and Mars magnetotails, A. Fedorov, C. Ferrier, J.A. Sauvaud, S. Barabash, T.L. Zhang, C. Mazelle, R. Lundin, H. Gunell, H. Andersson, K. Brinkfeldt, Y. Futaana, A. Grigoriev, M. Holmström, et al., Planetary and Space Science, 56(6):812–817, 2008.

• Energetic neutral atom imaging of comets, A. Ekenbäck, M. Holmström, S. Barabash, H. Gunell, Geophysical Research Letters, 35, L05103, 2008.

• Shear driven waves in the induced magnetosphere of Mars, H. Gunell, U.V. Amerstorfer, H. Nilsson, C. Grima, M. Koepke, M. Fränz, J.D. Winningham, R.A. Frahm, J.-A. Sauvaud, A. Fedorov, N.V. Erkaev, H.K. Biernat, M. Holmström, R. Lundin, and S. Barabash, Plasma Physics and Controlled Fusion, 50, 074018, 2008.

• Advanced method to derive the IMF direction near Mars from cycloidal proton distributions, M. Yamauchi, Y. Futaana, A. Fedorov, E. Kallio, R.A. Frahm, R. Lundin, J.-A. Sauvaud, D.J. Winningham, S. Barabash, and M. Holmström, Planetary and Space Science, 56(8):1145–1154, 2008.

• Solar Forcing and Planetary Ion Escape from Mars, Lundin, R., S. Barabash, A. Fedorov, M. Holmström, H. Nilsson, J.- A. Sauvaud, and M. Yamauchi, Geophysical Research Letters, 35, L09203, 2008.

• Tailward flow of energetic neutral atoms observed at Venus, A. Galli, M.-C. Fok, P. Wurz, S. Barabash, A. Grigoriev, Y. Futaana, M. Holmström, A. Ekenbäck, E. Kallio, and H. Gunell, Journal of Geophysical Research – Planets, 113, E00B15, 2008.

• A Comet-like Escape of Ionospheric Plasma from Mars, R. Lundin, S. Barabash, M. Holmström, H. Nilsson, M. Yamauchi, M. Fraenz, and E.M. Dubinin. Geophysical Research Letters, 35, L18203, 2008.

• The origin of hydrogen around HD 209458b — reply, M. Holmström, A. Ekenbäck, F. Selsis, T. Penz, H. Lammer, and P. Wurz, Nature 456, E1–E2, 2008. doi:10.1038/nature07403

• Tailward flow of energetic neutral atoms observed at Mars, A. Galli, P. Wurz, E. Kallio, A. Ekenbäck, M. Holmström, S. Barabash, A. Grigoriev, Y. Futaana, M.-C. Fok, and H. Gunell, Journal of Geophysical Research, 113, E12012, 2008.

• Observations of aurorae by SPICAM ultraviolet spectrograph on board Mars Express: Simultaneous ASPERA-3 and MARSIS measurements, Leblanc, F., O. Witasse, J. Lilensten, R.A. Frahm, Ali Safaenili, D.A. Brain, J. Mouginot, H. Nilsson, Y. Futaana, J. Halekas, M. Holmström, J.L. Bertaux, J.D. Winningham, W. Kofman, and R. Lundin, Journal of Geophysical Research, 113, A08311, 2008.

• Statistical analysis of the observations of the MEX/ASPERA-3 NPI in the shadow, A. Milillo, A. Mura, S. Orsini, S. Massetti, P. C.son Brandt, T. Sotirelis, R. D’Amicis, S. Barabash, R.A. Frahm, E. Kallio, A. Galli, P. Wurz, M. Holmstrom, E.C. Roelof, J.D. Winningham, P. Cerulli-Irelli, S. Livi, R. Lundin, M. Maggi, and A. Morbidini. Planetary and Space Science, 57(8-9):1000–1007, 2009.

• Investigation of the solar wind-Moon interaction onboard Chandrayaan-1 mission with the SARA experiment, S. Barabash, A. Bhardwaj, M. Wieser, R. Sridharan, T. Kurian, S. Varier, E. Vijayakumar, V. Abhirami, K.V. Raghavendra, S.V. Mohankumar, M.B. Dhanya, S. Thampi, A. Kazushi, H. Andersson, F. Yoshifumi, M. Holmstroem, R. Lundin, J. Svensson, S. Karlsson, R.D. Piazza, R. Daniele, and P. Wurz, Current Science, 96(4):526–532, 2009.

• The Atmospheric Origin of Cold Ion Escape from Mars, R. Lundin, S. Barabash, M. Holmström, H. Nilsson, M. Yamauchi, M. Fraenz, and E.M. Dubinin, Geophysical Research Letters, vol. 36, L17202, 2009.

• Extremely high reflection of solar wind protons as neutral hydrogen atoms from regolith in space, M. Wieser, S. Barabash, Y. Futaana, M. Holmström, A. Bhardwaj, R Sridharan, MB Dhanya, P. Wurz, A. Schaufelberger, and K. Asamura, Planetary and Space Science, 57(14-15):2132–2134, 2009.

• Ion escape from Mars as a function of solar wind conditions : A statistical study, Hans Nilsson, Ella Carlsson, David A. Brain, Masatoshi Yamauchi, Mats Holmström, Stas Barabash, Rickard Lundin, and Yoshifumi Futaana, Icarus, 206(1):40-49, 2010.

• A comparison of global models for the solar wind interaction with Mars, D. Brain, S. Barabash, A. Boesswetter, S. Bougher, S. Brecht, G. Chanteur, D. Crider, E. Dubinin, X. Fang, M. Fraenz, J. Halekas, E. Harnett, M. Holmstrom, et al. Icarus, 206(1):139-151, 2010.

• Energetic neutral atoms around HD 209458b: Estimations of magnetospheric properties, A. Ekenbäck, M. Holmström, P. Wurz, J-M. Grießmeier, H. Lammer, F. Selsis, and T. Penz, The Astrophysical Journal, 709(2):670–679, 2010.

• Dynamics of solar wind protons reflected by the Moon, M. Holmström, M. Wieser, S. Barabash, Y. Futaana, and A. Bhardwaj, Journal of Geophysical Research, 115, A06206, 2010.

• The Sub-keV Atom Reflecting Analyzer (SARA) experiment aboard Chandrayaan-1 mission: Instrument and observations, Anil Bhardwaj, Martin Wieser, M. B. Dhanya, Stas Barabash, Futaana Yoshifumi, Mats Holmström, R. Sridharan, Peter Wurz, Audrey Schaufelberger, and Asamura Kazushi, Advances in Geosciences, vol. 19, World Scientific, pp. 151, 2010.

• First observation of a mini-magnetosphere above a lunar magnetic anomaly using energetic neutral atoms, M. Wieser, S. Barabash, Y. Futaana, M. Holmström, A. Bhardwaj, R. Sridharan, M. B. Dhanya, A. Schaufelberger, P. Wurz, and K. Asamura, Geophysical Research Letters, vol. 37, L05103, 2010.

• Exoplanet Status Report: Observation, Characterization and Evolution of Exoplanets and Their Host Stars, H. Lammer, A. Hanslmeier, J. Schneider, I.K. Stateva, M. Barthelemy, A. Belu, D. Bisikalo, M. Bonavita, V. Eybl, V. Coudé du Foresto, M. Fridlund, R. Dvorak, S. Eggl, J. M. Grießmeier, M. Güdel, E. Günther, W. Hausleitner, M. Holmström, et al., Solar System Research, Vol. 44, No. 4, pp. 290–310, 2010.

• Protons in the Near Lunar Wake Observed by the SARA Instrument on Board Chandrayaan-1, Y. Futaana, S. Barabash, M. Wieser, M. Holmström, A. Bhardwaj, M.B. Dhanya, R. Sridharan, P. Wurz, A. Schaufelberger, and K. Asamura, Journal of Geophysical Research, vol. 115, A10248, 2010.

• Backscattered solar wind protons by Phobos, Y. Futaana, S. Barabash, M. Holmström, A. Fedorov, H. Nilsson, R. Lundin, E. Dubinin, M. Fränz, Journal of Geophysical Research, vol. 115, A10213, 2010.

• Hybrid modeling of plasmas, Proceedings of ENUMATH 2009, the 8th European Conference on Numerical Mathematics and Advanced Applications, 451–458, Springer, 2010.

• Studying the Lunar–Solar wind interaction with the SARA experiment aboard the Indian Lunar Mission Chandrayaan-1, Anil Bhardwaj, Stas Barabash, M. B. Dhanya, Martin Wieser, Futaana Yoshifumi, Mats Holmström, R. Sridharan, Peter Wurz, Audrey Schaufelberger, and Asamura Kazushi, American Institute of Physics Conference Proceedings, 1216, pp. 518-521, 2010.

• Strong influence of lunar crustal fields on the solar wind flow, Charles Lue, Yoshifumi Futaana, Stas Barabash, Martin Wieser, Mats Holmström, Anil Bhardwaj, M.B. Dhanya, and Peter Wurz, Geophysical Research Letters, 38, L03202, 2011.

• Hydrogen ENA-cloud observation and modeling as a tool to study star-exoplanet interaction, H. Lammer, K.G. Kislyakova, M. Holmström, M.L. Khodachenko, and J.-M. Grießmeier, Astrophysics and Space Science, 335, 9–23, 2011.

• The Venusian Bow Shock as Seen by the ASPERA-4 Ion Instrument on Venus Express, I. Whittaker, G. Guymer, M. Grande, B. Pintér, S. Barabash, A. Federov, C. Mazelle, J.A. Sauvaud, R. Lundin, C.T. Russell, Y. Futaana, M. Fränz, T.L. Zhang, H. Andersson, A. Grigoriev, M. Holmström, M. Yamauchi, et al, Journal of Geophysical Research, vol. 115, A09224, 2010.

• Comparison of accelerated ion populations observed upstream of the bow shocks at Venus and Mars, M. Yamauchi, Y. Futaana, A. Fedorov, R.A. Frahm, J.D. Winningham, E. Dubinin, R. Lundin, S. Barabash, M. Holmström, et al., Annales Geophysicae, v. 29, 3, 511–528, 2011.

• UV transit observations of EUV-heated expanded thermospheres of Earth-like exoplanets around M-stars: Testing atmosphere evolution scenarios, H. Lammer, V. Eybl, K.G. Kislyakova, J. Weingrill, M. Holmström, et al. Astrophysics and Space Science, 335, 39–50, 2011.

• An Energy Conserving Parallel Hybrid Plasma Solver, Numerical modeling of space plasma flows (ASTRONUM-2010), ASP Conference Series, vol. 444, 211–216, 2011.

• Heavy ion escape from Mars, influence from solar wind conditions and crustal magnetic fields, Hans Nilsson, Niklas J.T. Edberg, Gabriella Stenberg, Stas Barabash, Mats Holmström, Yoshifumi Futaanaa, Rickard Lundina and Andrei Fedorov, Icarus, vol. 215, 2, 475–484, 2011.

• Scattering function for energetic neutral hydrogen atoms off the lunar surface, A. Schaufelberger, P. Wurz, S. Barabash, M. Wieser, Y. Futaana, M. Holmström, A. Bhardwaj, M. B. Dhanya, R. Sridharan, and K. Asamura, Geophysical Research Letters, 38, L22202, 2011.

• Proton and hydrogen atom transport in the Martian upper atmosphere with an induced magnetic field, V. I. Shematovich, D. V. Bisikalo, C. Diéval, S. Barabash, G. Stenberg, H. Nilsson, Y. Futaana, M. Holmstrom, and J.-C. Gérard, Journal of Geophysical Research, 116, A11320, 2011.

• Scattering function for energetic neutral hydrogen atoms off the lunar surface, A. Schaufelberger, P. Wurz, S. Barabash, M. Wieser, Y. Futaana, M. Holmström, et al., Geophysical Research Letters, 38, L22202, 2011.

• Interaction of solar wind with Moon: An overview on the results from the SARA experiment aboard Chandrayaan-1, A. Bhardwaj, M.B. Dhanya, R. Sridharan, S. Barabash, Y. Futaana, M. Wieser, M. Holmström, C. Lue, P. Wurz, A. Schaufelberger, and K. Asamura, in Advances in Geosciences. Volume 30: Planetary Science and Solar & Terrestrial Science, A. Bhardwaj Ed., 35-55, World Scientific Publication Company, 2011.

• Ion Acceleration by Multiple Reflections at Martian Bow Shock, M. Yamauchi, Y. Futaana, A. Fedorov, R.A. Frahm, E. Dubinin, R. Lundin, J.-A. Sauvaud, J.D. Winningham, S. Barabash, and M. Holmström, Earth Planets Space, 64(2):61–71, 2012.

• Ion distributions in the vicinity of Mars: signatures of heating and acceleration processes, H. Nilsson, G. Stenberg, Y. Futaana, M. Holmström, S. Barabash, R. Lundin, N. Edberg et al., Earth Planets Space, 64(2):135–148, 2012.

• Variability of solar/stellar activity and magnetic field and its influence on planetary atmosphere evolution, Helmut Lammer, Manuel Güdel, Yuri Kulikov, Ignasi Ribas, Teimuraz V. Zaqarashvili, Maxim L. Khodachenko, Kristina G. Kislyakova, Hannes Gröller, Petra Odert, Martin Leitzinger, Bibiana Fichtinger, Sandro Krauss, Walter Hausleitner, Mats Holmström, et al., Earth Planets Space, 64(2):179–199, 2012.

• The interaction between the Moon and the solar wind, M. Holmström, S. Fatemi, Y. Futaana, and H. Nilsson, Earth Planets Space, 64(2):237–245, 2012.

• Empirical Energy Spectra of Neutralized Solar Wind Protons from the Lunar Regolith, Y. Futaana, S. Barabash, M. Wieser, M. Holmström, et al., Journal of Geophysical Research, Vol. 117, No. E5, E05005, 2012.

• A case study of proton precipitation at Mars: Mars Express observations and hybrid simulations, C. Diéval, E. Kallio, S. Barabash, G. Stenberg, H. Nilsson, Y. Futaana, M. Holmström, A. Fedorov, R. A. Frahm, R. Jarvinen, and D. A. Brain, Journal of Geophysical Research, Vol. 117, No. A6, A06222, 2012.

• Energetic Neutral Atom Observations of Magnetic Anomalies on the Lunar Surface, A. Vorburger, P. Wurz, S. Barabash, M. Wieser, Y. Futaana, M. Holmström, A. Bhardwaj, and K. Asamura, Journal of Geophysical Research, Vol. 117, No. A7, A07208, 2012.

• The effects of lunar surface plasma absorption and solar wind temperature anisotropies on the solar wind proton velocity space distributions in the low-altitude lunar plasma wake, S. Fatemi, M. Holmström, and Y. Futaana, Journal of Geophysical Research, Vol. 117, A10105, 2012.

• The lunar wake current systems, S. Fatemi, M. Holmström, Y. Futaana, S. Barabash, and C. Lue, Geophysical Research Letters, 1(40):17–21, 2013.

• XUV exposed, non-hydrostatic hydrogen-rich upper atmospheres of terrestrial planets II: Hydrogen coronae and ion escape, Kristina G. Kislyakova, Helmut Lammer, Mats Holmström, et al., Astrobiology, 13(11):1030–1048, 2013.

• Proton entry into the near-lunar plasma wake for magnetic field aligned flow, M.B. Dhanya, A. Bhardwaj, Y. Futaana, S. Fatemi, M. Holmström, S. Barabash, M. Wieser, P. Wurz, A. Alok, and R.S. Thampi, Geophysical Research Letters, 12(40):2913–2917, 2013.

• A large-scale flow vortex in the Venus plasma tail and its fluid dynamic interpretation, R. Lundin, S. Barabash, Y. Futaana, M. Holmström, H. Perez-de-Tejada, and J.-A. Sauvaud, Geophysical Research Letters, 7(40), 1273–1278, 2013.

• Solar Cycle Effects on the Ion Escape from Mars, R. Lundin, S. Barabash, M. Holmström, H. Nilsson, Y. Futaana, R. Ramstad, M. Yamauchi, E. Dubinin, and M. Fraenz, Geophysical Research Letters, 23(40), 6028–6032, 2013.

• Energetic neutral atom imaging of the lunar surface, A. Vorburger, P. Wurz, S. Barabash, M. Wieser, Y. Futaana, C. Lue, M. Holmström, A. Bhardwaj, M.B. Dhanya, and K. Asamura, Journal of Geophysical Research, 7(118):3937–3945, 2013.

• Mars Express investigations of Phobos and Deimos, O. Witasse, T. Duxbury, A. Chicarro, N. Altobelli, T. Andert, A. Aronica, S. Barabash, J.-L. Bertaux, J.-P. Bibring, A. Cardesin-Moinelo, A. Cichetti, V. Companys, V. Dehant, M. Denis, V. Formisano, Y. Futaana, M. Giuranna, B. Gondet, D. Heather, H. Hoffmann, M. Holmström et al., Planetary and Space Science, Vol. 102, 18–34, 2014.

• Stellar wind interaction and pick-up ion escape of the Kepler-11 ”super-Earths”, K. G. Kislyakova, C. P. Johnstone, P. Odert, N. V. Erkaev, H. Lammer, T. Lüftinger, M. Holmström, M. L. Khodachenko, and M. Güdel, Astronomy & Astrophysics, 562, A116, 2014.

• First Direct Observation of Sputtered Lunar Oxygen, A. Vorburger, P. Wurz, S. Barabash, M. Wieser, Y. Futaana, M. Holmström, A. Bhardwaj, and K. Asamura, Journal of Geophysical Research, 2(119):709–722, 2014.

• Lunar dayside current in the terrestrial lobe: ARTEMIS observations, X.-Z. Zhou, V. Angelopoulos, A. R. Poppe, J. S. Halekas, K. K. Khurana, M. G. Kivelson, S. Fatemi, and M. Holmström, Journal of Geophysical Research, 5(119):3381–3391, 2014.

• On Lunar Exospheric Column Densities and Solar Wind Access Beyond the Terminator from ROSAT Soft X-ray Observations of Solar Wind Charge Exchange, Michael R. Collier, S.L. Snowden, M. Sarantos, M. Benna, J.A. Carter, T.E. Cravens, W.M. Farrell, S. Fatemi, H. Kent Hills, R.R. Hodges, M. Holmström, K.D. Kuntz, F. Scott Porter, A. Read, I.P. Robertson, S.F. Sembay, D.G. Sibeck, T.J. Stubbs, P. Travnicek, and B.M. Walsh, Journal of Geophysical Research, Vol. 119, No. 7, 1459–1478, 2014.

• ARTEMIS observations of extreme diamagnetic fields in the lunar wake, A.R. Poppe, S. Fatemi, J.S. Halekas, M. Holmström, and G.T. Delory, Geophysical Research Letters, 11(41):3766–3773, 2014.

• Solar wind driven thermospheric winds over the Venus North Polar region, R. Lundin, S. Barabash, Y. Futaana, M. Holmström, J.-A. Sauvaud, and A. Fedorov, Geophysical Research Letters, 13(41):4413–4419, 2014.

• The extension of ionospheric holes into the tail of Venus, G.A. Collinson, A. Fedorov, Y. Futaana, K. Masunaga, R. Hartle, G. Stenberg, J. Grebowsky, M. Holstrom, N. Andre, S. Barabash, and T.L. Zhang, Journal of Geophysical Research, Vol. 119, No. 8, 6940–6953, 2014.

• Effects of protons reflected by lunar crustal magnetic fields on the global lunar plasma environment, Shahab Fatemi, Mats Holmström, Yoshifumi Futaana, Charles Lue, Michael R. Collier, Stas Barabash, and Gabriella Stenberg, Journal of Geophysical Research, Vol. 119, No. 8, 6095–6105, 2014.

• Magnetic moment and plasma environment of HD 209458b as determined from Lyα observations, Kristina G. Kislyakova, Mats Holmström, Helmut Lammer, Petra Odert, Maxim L. Khodachenko, Science, Vol. 346, No. 6212, 981-984, 2014.

• Stellar Wind Induced Soft X-Ray Emission from Close-in Exoplanets, K.G. Kislyakova, L. Fossati, C.P. Johnstone, M. Holmström, V.V. Zaitsev, and H. Lammer, The Astrophysical Journal Letters, 799:L15, 2015.

• Callisto Plasma Interactions: Hybrid Modeling Including Induction by a Subsurface Ocean, Jesper Lindkvist, Mats Holmström, Krishan K. Khurana, Shahab Fatemi, and Stas Barabash, Journal of Geophysical Research: Space Physics, Vol. 120, No. 6, 4877–4889, 2015.

• Solar wind plasma interaction with Gerasimovich lunar magnetic anomaly, Shahab Fatemi, Charles Lue, Mats Holmström, Andrew R. Poppe, Martin Wieser, Stas Barabash, and Gregory T. Delory, Journal of Geophysical Research: Space Physics, Vol. 120, No. 6, 4719–4735, 2015.

• The Martian atmospheric ion escape rate dependence on solar wind and solar EUV conditions I: Seven years of Mars Express observations, Robin Ramstad, Stas Barabash, Yoshifumi Futaana, Hans Nilsson, Xiao-Dong Wang, and Mats Holmström, Journal of Geophysical Research: Space Physics, Vol. 120, No. 7, 1298–1309, 2015.

• A new view on the solar wind interaction with the Moon, Anil Bhardwaj, M.B. Dhanya, Abhinaw Alok, Stas Barabash, Martin Wieser, Yoshifumi Futaana, Peter Wurz, Audrey Vorburger, Mats Holmström, Charles Lue, Yuki Harada and Kazushi Asamura, Geoscience Letters, 2:10, 2015.

• Mars as a comet: Solar wind interaction on a large scale, Mats Holmstrom and Xiao-Dong Wang, Planetary and Space Science, 119, 43–47, 2015.

• Oxygen foreshock of Mars, M. Yamauchi, R. Lundin, R.A. Frahm, J.-A. Sauvaud, M. Holmström and S. Barabash, Planetary and Space Science, 119, 48–53, 2015.

• Seasonal variation of Martian pick-up ions: Evidence of breathing exosphere, M. Yamauchi, T. Hara, R. Lundin, E. Dubinin, A. Fedorov, J.-A. Sauvaud, R.A. Frahm, R. Ramstad, Y. Futaana, M. Holmström and S. Barabash, Planetary and Space Science, 119, 54–61, 2015.

• Details of a Hybrid Model for the Interaction between the Solar Wind and Planets Implemented in FLASH, M. Holmström, and X.-D. Wang, Numerical modeling of space plasma flows: ASTRONUM-2014, ASP Conference Series, vol. 498, 147–153, 2015.

• On the confinement of lunar induced magnetic fields, Fatemi, S. H. Fuqua, A.R. Poppe, G.T. Delory, J.S. Halekas, W.M. Farrell and M. Holmström, Geophysical Research Letters, 42, 6931–6938, 2015.

• Solar wind interaction with the Reiner Gamma crustal magnetic anomaly: Connecting source magnetization to surface weathering, Andrew R. Poppe, Shahab Fatemi, Ian Garrick-Bethell, Doug Hemingway and Mats Holmström, Icarus, 266, 261–266, 2016.

• The Moon’s Plasma Wake, J.S. Halekas, D.A. Brain, and M. Holmstrom, in Magnetotails in the Solar System, A. Keiling, C.M. Jackman, and P.A. Delamere, Eds., Geophysical Monograph 207, American Geophysical Union, John Wiley & Sons, 149-167, 2015.

• Dust environment of an airless object: A phase space study with kinetic models, Kallio, E., S. Dyadechkin, S. Fatemi, M. Holmström, Y. Futaana, P. Wurz, V.A. Fernandes, F. Álvarez, J. Heilimo, R. Jarvinen, W. Schmidt, A.-M. Harri, S. Barabash, J. Mäkelä, N. Porjo and M. Alho, Planetary and Space Science, 120, 56–69, 2016.

• Characteristics of proton velocity distribution functions in the near-lunar wake from Chandrayaan-1/SWIM observations, M.B. Dhanya, Anil Bhardwaj, Yoshifumi Futaana, Stas Barabash, Abhinaw Alok, Martin Wieser, Mats Holmström, and Peter Wurz, Icarus, 271, 120-–130, 2016.

• Plasma observations during the Mars atmospheric ”plume” event of March-April 2012, D.J. Andrews, S. Barabash, N.J.T. Edberg, D.A. Gurnett, B.E.S. Hall, M. Holmström, M. Lester, D.D. Morgan, H.J. Opgenoorth, R. Ramstad, B. Sanchez-Cano, M. Way, and O. Witasse, Journal of Geophysical Research: Space Physics, 121, 3139–3154, 2016.

• Solar XUV and ENA-driven water loss from early Venus’ steam atmosphere, H.I.M. Lichtenegger, K.G. Kislyakova, P. Odert, N.V. Erkaev, H. Lammer, H. Gröller, C.P. Johnstone, L. Elkins-Tanton, L. Tu, M. Güdel, M. Holmström, Journal of Geophysical Research: Space Physics, 121, 4718–4732, 2016.

• On the formation of Ganymede’s surface brightness asymmetries: Kinetic simulations of Ganymede’s magnetosphere, S. Fatemi, A.R. Poppe, K.K. Khurana, M. Holmström, and G.T. Delory, Geophysical Research Letters, 43, 4745–4754, 2016.

• Alfvén Wings in the Lunar Wake: The role of pressure gradients, H. Zhang, K.K. Khurana, M.G. Kivelson, S. Fatemi, M. Holmström, V. Angelopoulos, Y.D. Jia, W.X. Wan, L.B. Liu, Y.D. Chen, H.J. Le, Q.Q. Shi, and W.L. Liu, Journal of Geophysical Research: Space Physics, 121, 10,698–10,711, 2016.

• Effects of the crustal magnetic fields on the Martian atmospheric ion escape rate, Robin Ramstad, Stas Barabash, Yoshifumi Futaana, Hans Nilsson, and M. Holmström, Geophysical Research Letters, 43, 10574–10579, 2016.

• Mass-loading of the solar wind at 67P/Churyumov-Gerasimenko. Observations and modeling, E. Behar, J. Lindkvist, H. Nilsson, M. Holmström., G. Stenberg-Wieser, R. Ramstad, and C. Götz, Astronomy & Astrophysics, 596, A42, 2016.

• Annual variations in the Martian bow shock location as observed by the Mars Express mission, B.E.S. Hall, M. Lester, B. Sánchez-Cano, J.D. Nichols, D.J. Andrews, N.J.T. Edberg, H.J. Opgenoorth, M. Fränz , M. Holmström., R. Ramstad, O. Witasse, M. Cartacci, A. Cicchetti, R. Noschese, and R. Orosei, Journal of Geophysical Research: Space Physics, 121, 11,474–11,494, 2016.

• The role of plasma slowdown in the generation of Rhea’s Alfvén wings, Krishan K. Khurana, Shahab Fatemi, Jesper Lindkvist, Elias Roussos, Norbert Krupp, Mats Holmström, Christopher T. Russell, Michele K. Dougherty, Journal of Geophysical Research: Space Physics, 122, 1778–1788, 2017.

• Ceres interaction with the solar wind, Jesper Lindkvist, Mats Holmström, Shahab Fatemi, Martin Wieser, Stas Barabash, Geophysical Research Letters, 44, 2070–2077, 2017.

• New suprathermal proton population around the Moon: Observation by SARA on Chandrayaan-1, M.B. Dhanya, Anil Bhardwaj, Yoshifumi Futaana, Stas Barabash, Martin Wieser, Mats Holmström, and Peter Wurz, Geophysical Research Letters, 44, 4540–4548, 2017.

• Mars plasma system response to solar wind disturbances during solar minimum, B. Sánchez-Cano, B.E.S. Hall, M. Lester, M.L. Mays, O. Witasse, R. Ambrosi, D. Andrews, M. Cartacci, A. Cicchetti, M. Holmström, S. Imber, P. Kajdič, S.E. Milan, R. Noschese, D. Odstrcil, H. Opgenoorth, J. Plaut, R. Ramstad and K.I. Reyes-Ayala, Journal of Geophysical Research: Space Physics, 122, 6611–6634, 2017.

• Interplanetary coronal mass ejection observed at STEREO-A, Mars, comet 67P/Churyumov-Gerasimenko, Saturn, and New Horizons en-route to Pluto. Comparison of its Forbush decreases at 1.4, 3.1 and 9.9 AU, O. Witasse, B. Sánchez-Cano, M.L. Mays, P. Kajdič, H. Opgenoorth, H.A. Elliott, I.G. Richardson, I. Zouganelis, J. Zender, R.F. Wimmer-Schweingruber, L. Turc, M.G.G.T. Taylor, E. Roussos, A. Rouillard, I. Richter, J.D. Richardson, R. Ramstad, G. Provan, A. Posner, J.J. Plaut, D. Odstrcil, H. Nilsson, P. Niemenen, S.E. Milan, K. Mandt, H. Lohf, M. Lester, J.-P. Lebreton, E. Kuulkers, N. Krupp, C. Koenders, M.K. James, D. Intzekara, M. Holmstrom, D.M. Hassler, B.E.S. Hall, J. Guo, R. Goldstein, C. Goetz, K.H. Glassmeier, V. Génot, H. Evans, J. Espley, N.J.T. Edberg, M. Dougherty, S.W.H. Cowley, J. Burch, E. Behar, S. Barabash, D.J. Andrews, N. Altobelli, Journal of Geophysical Research: Space Physics, 122, 2017.

• Solar wind- and EUV-dependent models for the shapes of the Martian plasma boundaries based on Mars Express measurements, Robin Ramstad, Stas Barabash, Yoshifumi Futaana, Mats Holmström, Journal of Geophysical Research: Space Physics, 122, 7279–7290, 2017.

• Global Mars–solar wind coupling and ion escape, Robin Ramstad, Stas Barabash, Yoshifumi Futaana, Hans Nilsson, Mats Holmström, Journal of Geophysical Research: Space Physics, 122, 2017.

• The LatHyS database for planetary plasma environment investigations: Overview and a case study of data/model comparisons, R. Modolo, S. Hess, V. Génot, L. Leclercq, F. Leblanc, J-Y Chaufray, P. Weill, M. Gangloff, A. Fedorov, E. Budnik, M. Bouchemit, M. Steckiewicz, N. André, L. Beigbeder, D. Popescu, J-P. Toniutti, T. Al-Ubaidi, M. Khodachenko, D. Brain, S. Curry, B. Jakosky, M. Holmström, Planetary and Space Science, 150, 13–21, 2018.

• Mars under primordial solar wind conditions: Mars Express observations of the strongest CME detected at Mars under solar cycle #24 and its impact on atmospheric ion escape, Robin Ramstad, Stas Barabash, Yoshifumi Futaana, Masatoshi Yamauchi, Hans Nilsson, Mats Holmström, Geophysical Research Letters, 44, 10,805–10,811, 2017.

• Current systems of inert moons, Mats Holmström and Shahab Fatemi, in Electric Currents in Geospace and Beyond, A. Keiling, O. Marghitu and M. Wheatland, Eds., Geophysical Monograph, American Geophysical Union, volume 235, Wiley & Sons, Inc, Hoboken, N.J., 2018. DOI: 10.1002/9781119324522.ch29

• Oxygen Ion Energization at Mars: Comparison of MAVEN and Mars Express Observations to Global Hybrid Simulation, R. Jarvinen, D.A. Brain, R. Modolo, A. Fedorov, M. Holmström, Journal of Geophysical Research: Space Physics, v. 123, 2, 1678–1689, 2018.

• A modelling approach to infer the solar wind dynamic pressure from magnetic field observations inside Mercury’s magnetosphere, S. Fatemi, N. Poirier, M. Holmström, J. Lindkvist, M. Wieser, and S. Barabash, Astronomy & Astrophysics, 614, A132, 2018.

• The Largest Electron Differential Energy Flux Observed at Mars by the Mars Express Spacecraft, 2004-2016, R.A. Frahm, J.D. Winningham, A.J. Coates, J.-C. Gérard, M. Holmström, and S. Barabash, Journal of Geophysical Research: Space Physics, v. 123, 8, 6576–6590, 2018.

• Imaging Plasma Density Structures in the soft X-rays generated by solar wind charge exchange with neutrals, David G. Sibeck, R. Allen, H. Aryan, D. Bodewits, P. Brandt, G. Branduardi-Raymont, G. Brown, J.A. Carter, Y.M. Collado-Vega, M.R. Collier, H.K. Connor, T.E. Cravens, Y. Ezoe, M.-C. Fok, M. Galeazzi, O. Gutynska, M. Holmström, S.-Y. Hsieh, K. Ishikawa, D. Koutroumpa, M. Leutenegger, K.D. Kuntz, Y. Miyoshi, F.S. Porter, M.E. Purucker, A.M. Read, J. Raeder, I.P. Robertson, A.A. Samsonov, S.F. Sembay, S.L. Snowden, N.E. Thomas, R. von Steiger, B.M. Walsh, S. Wing, Space Science Reviews, 214, 79, 2018.

• Solar wind dynamics around a comet: A 2D semi-analytical model, E. Behar, B. Tabone, M. Saillenfest, P. Henri, J. Deca, M. Holmström, H. Nilsson, J. Lindkvist, Astronomy & Astrophysics, v. 620, A35, 2018.

• The September 2017 SEP event in context with the current solar cycle: Mars Express ASPERA-3/IMA and MAVEN/SEP observations, Robin Ramstad, Mats Holmström, Yoshifumi Futaana, Christina O. Lee, Ali Rahmati, Patrick Dunn, Robert J. Lillis, and Davin Larson, Geophysical Research Letters, v. 45, 15, 7306-7311, 2018.

• Responses of the Martian magnetosphere to an interplanetary coronal mass ejection: MAVEN observations and LatHyS results, N. Romanelli, R. Modolo, F. Leblanc, J-Y. Chaufray, A. Martinez, Y. Ma, C.O. Lee, J. Luhmann, J. Halekas, D. Brain, G. DiBraccio, J. Espley, J. Mcfadden, B. Jakosky, M. Holmström, Geophysical Research Letters, v. 45, 16, 7891–7900, 2018.

• Modeling the Evolution and Propagation of 10 September 2017 CMEs and SEPs Arriving at Mars Constrained by Remote Sensing and In Situ Measurement, Jingnan Guo, Mateja Dumbović, Robert F. Wimmer-Schweingruber, Manuela Temmer, Henning Lohf, Yuming Wang, Astrid Veronig, Donald M. Hassler, Leila M. Mays, Cary Zeitlin, Bent Ehresmann, Olivier Witasse, Johan L. Freiherr von Forstner, Bernd Heber, Mats Holmström, Arik Posner, Space Weather, v. 16, 8, 1156–1169, 2018.

• Observations and Impacts of the 10 September 2017 Solar Events at Mars: An Overview and Synthesis of the Initial Results, C.O. Lee, B.M. Jakosky, J.G. Luhmann, D.A. Brain, M.L. Mays, D.M. Hassler, M. Holmström, D.E. Larson, D.L. Mitchell, C. Mazelle, and J.S. Halekas, Geophysical Research Letters, v. 45, 17, 8871–8885, 2018.

• First observation of transport of solar wind protons scattered from magnetic anomalies into the near lunar wake: Observations by SARA/Chandrayaan-1, M.B. Dhanya, Anil Bhardwaj, Abhinaw Alok, Yoshifumi Futaana, Stas Barabash, Martin Wieser, Mats Holmström, and Peter Wurz, Geophysical Research Letters, v. 45, 17, 8826–8833, 2018.

• Ion Escape From Mars Through Time: An Extrapolation of Atmospheric Loss Based on 10 Years of Mars Express Measurements, Robin Ramstad, Stas Barabash, Yoshifumi Futaana, Hans Nilsson, Mats Holmström, Journal of Geophysical Research: Planets, v. 123, 11, 3051–3060, 2018.

• The infant bow shock: a new frontier at a weak activity comet, Herbert Gunell, Charlotte Goetz, Cyril Simon Wedlund, Jesper Lindkvist, Maria Hamrin, Hans Nilsson, Kristie Llera, Anders Eriksson and Mats Holmström, Astronomy & Astrophysics, 619, L2, 2018.

• Ions accelerated by sounder-plasma interaction as observed by Mars Express, A. Voshchepynets, S. Barabash, R. Ramstad, M. Holmstrom, D. Andrews, G. Nicolaou, R. Frahm, A. Kopf, and D. Gurnett, Journal of Geophysical Research: Space Physics, 123, 9802–9814, 2018.

• Variability of the ion precipitating fluxes during the September 2017 event at Mars, A. Martinez, F. Leblanc, J.Y. Chaufray, R. Modolo, N. Romanelli, S. Curry, J. Luhmann, R. Lillis, T. Hara, J. McFadden, J. Halekas, F. Eparvier, D. Larson, J. Connerney, Y. Ma, M. Holmström, O. Witasse, and B. Jakosky, Journal of Geophysical Research: Space Physics, v. 124, 1, 420–432, 2019.

• Transit Lyman-α signatures of terrestrial planets in the habitable zones of M dwarfs, K.G. Kislyakova, M. Holmström, P. Odert, H. Lammer, N.V. Erkaev, M.L. Khodachenko, I.F. Shaikhislamov, E. Dorfi, and M. Güdel, Astronomy & Astrophysics, 623, A131, 2019.

• Active experiments beyond the Earth: Plasma effects of sounding radar operations in the ionospheres of Venus, Mars, and the Jovian system, Andrii Voshchepynets, Stas Barabash, Mats Holmstrom, Rudy A. Frahm, Frontiers in Astronomy and Space Sciences, 6:17, 2019.

• The Martian bow shock over solar cycle 23–24 as observed by the Mars Express mission, B.E.S. Hall, B. Sánchez-Cano, J.A. Wild, M. Lester, and M. Holmström, Journal of Geophysical Research: Space Physics, v. 124, 6, 4761–4772, 2019.

• 3D-modeling of Callisto’s Surface Sputtered Exosphere Environment, Audrey Vorburger, Martin Pfleger, Jesper Lindkvist, Mats Holmström, Helmut Lammer, Herbert I.M. Lichtenegger, André Galli, Martin Rubin, and Peter Wurz, Journal of Geophysical Research: Space Physics, v. 124, 8, 7157–7169, 2019.

• Observations of Sounder Accelerated Electrons by Mars Express, S. Barabash, A. Voshchepynets, M. Holmstrom, R.A. Frahm, H. Nillsson, D. Andrews, A. Kopf, and J.D. Winningham, Journal of Geophysical Research: Space Physics, v. 125, 1, 2020.

• Evolution of the Earth’s polar outflow from mid-Archean to present, K.G. Kislyakova, C.P. Johnstone, M. Scherf, M. Holmström, I.I. Alexeev, H. Lammer, M.L. Khodachenko, M. Güdel, Journal of Geophysical Research: Space Physics, v. 125, 8, 2020.

• Mars’ ionopause: A matter of pressures, Beatriz Sánchez-Cano, Clara Narvaez, Mark Lester, Michael Mendillo, Majd Mayyasi, Mats Holmstrom, Jasper Halekas, Laila Andersson, Christopher M. Fowler, James P. McFadden, Sofija Durward, Journal of Geophysical Research: Space Physics, v. 125, 9, 2020.

• Modeling the Lyα transit absorption of the hot Jupiter HD 189733b, P. Odert, N.V. Erkaev, K.G. Kislyakova, H. Lammer, A.V. Mezentsev, V.A. Ivanov, L. Fossati, M. Leitzinger, D. Kubyshkina, and M. Holmström, Astronomy & Astrophysics, Volume 638, A49, 2020.

• SERENA: particle instrument suite for determining the Sun-Mercury interaction from BepiColombo, Stefano Orsini, Stefano A. Livi, Herbert Lichtenegger, Stas Barabash, Anna Milillo, Elisabetta De Angelis, Mark Phillips, Gunter Laky, Martin Wieser, Angelo Olivieri, Christina Plainaki, Jean-Jacques Berthelier, Iannis Dandouras, George Ho, Esa Kallio, Rosemary M. Killen, Susan McKenna-Lawlor, Jim A. Slavin, Klaus Torkar, Oleg Vaisberg, Peter Wurz, Frederic Allegrini, Iannis A. Daglis, Chuanfei Dong, Melinda Dosa, Christophe Philippe Escoubet, Shahab Fatemi, Markus Fränz, Stavro Ivanovski, Norbert Krupp, Helmut Lammer, François Leblanc, Valeria Mangano, Alessandro Mura, Hans Nilsson, Jim M. Raines, Rosanna Rispoli, Menelaos Sarantos, Todd Smith, Ali Varsani, Alessandro Aronica, Fabio Camozzi, Andrea M. Di Lellis, Gerhard Fremuth, Franz Giner, Reid Gurnee, John Hayes, Harald Jeszenszky, Fabio Tominetti, Bradley Trantham, Jan Balaz, Wolfgang Baumjohann, Daniele Brienza, Ulrich Bührke, Martin D. Bush, Matteo Cantatore, Sara Cibella, Luca Colasanti, Gabriele Cremonese, Luigi Cremonesi, Marco D’Alessandro, Dominique Drelcourt, Magda Delva, Mihir Desai, Marcelo Fama, Mark Ferris, Henning Fischer, Alessandro Gaggero, Andrè Galli, Diana Gamborino, Philippe Garnier, William C. Gibson, Raymond Goldstein, Manuel Grande, Vkadimir Grishin, Dennis Haggerty, Mats Holmström, et al., Space Science Reviews, 217, 2021.

• CME Magnetic Structure and IMF Preconditioning Affecting SEP Transport, Erika Palmerio, Emilia K.J. Kilpua, Olivier Witasse, David Barnes, Beatriz Sánchez-Cano, Andreas J. Weiss, Teresa Nieves-Chinchilla, Christian Möstl, Lan K. Jian, Marilena Mierla, Andrei N. Zhukov, Jingnan Guo, Luciano Rodriguez, Patrick J. Lowrance, Alexey Isavnin, Lucile Turc, Yoshifumi Futaana, and Mats Holmström, Space Weather, v. 19, 4, 2021.

• Pre-flight Calibration and Near-Earth Commissioning Results of the Mercury Plasma Particle Experiment (MPPE) Onboard MMO (Mio), Yoshifumi Saito, Dominique Delcourt, Masafumi Hirahara, et al., Space Science Reviews, 217, 2021.

• Triton’s Variable Interaction with Neptune’s Magnetospheric Plasma, Lucas Liuzzo, Carol Paty, Corey Cochrane, Tom Nordheim, Adrienn Luspay-Kuti, Julie Castillo-Rogez, Kathleen Mandt, Karl L. Mitchell, Mats Holmström, Peter Addison, Sven Simon, Andrew R. Poppe, Steven D. Vance, and Louise Prockter, Journal of Geophysical Research: Space Physics, v. 126, 11, 2021.

• Does Phobos reflect solar wind protons? Mars Express special flyby operations with and without the presence of Phobos, Yoshifumi Futaana, Mats Holmström, Andrei Fedorov, and Stas Barabash, Journal of Geophysical Research: Space Physics, v. 126, 11, 2021.

• MAVEN Observations of Periodic Low-altitude Plasma Clouds at Mars, Chi Zhang, Zhaojin Rong, Hans Nilsson, Shaosui Xu, Yong Wei, Jun Zhong, Markus Fränz, Yoshifumi Futaana, Kun Li, Hui Zhang, Kai Fan, Lei Wang, Mats Holmström, Yasong Ge, Jun Cui, The Astrophysical Journal Letters, 922:L33, 2021.

• Estimating Ion Escape from Unmagnetized Planets, Annales Geophysicae, 40, 83–89, 2022.

• Upstream solar wind speed at comet 67P. Reconstruction method, model comparison, and results, H. Nilsson, A. Moeslinger, H.N. Williamson, S. Bergman, H. Gunell, G. Stenberg Wieser, Y. Futaana, T. Karlsson, E. Behar, and M. Holmström, Astronomy & Astrophysics, 659, A18, 2022.

• CMEs and SEPs During November–December 2020: A Challenge for Real-Time Space Weather Forecasting, Erika Palmerio, Christina O. Lee, M. Leila Mays, Janet G. Luhmann, David Lario, Beatriz Sánchez-Cano, Ian G. Richardson, Rami Vainio, Michael L. Stevens, Christina M.S. Cohen, Konrad Steinvall, Christian Möstl, Andreas J. Weiss, Teresa Nieves-Chinchilla, Yan Li, Davin E. Larson, Daniel Heyner, Stuart D. Bale, Antoinette B. Galvin, Mats Holmström, Yuri V. Khotyaintsev, Milan Maksimovic, and Igor G. Mitrofanov Space Weather, 20, 2022.

• Menura: a code for simulating the interaction between a turbulent solar wind and solar system bodies, Etienne Behar, Shahab Fatemi, Pierre Henri, and Mats Holmström, Annales Geophysicae, 40, 281-297, 2022.

• An Eastward Current Encircling Mercury, Z. Shi, Z.J. Rong, S. Fatemi, J.A. Slavin, L. Klinger, C. Dong, L. Wang, J. Zhong, J.M. Raines, M. Holmström, C.J. Yuan, S. Barabash, Y. Wei, Geophysical Research Letters, v. 49, 10, 2022.

• Three-dimensional Configuration of Induced Magnetic Fields around Mars, Chi Zhang, Zhaojin Rong, Lucy Klinger, Hans Nilsson, Zhen Shi, Fei He, Jiawei Gao, Xinzhou Li, Yoshifumi Futaana, Robin Ramstad, Xiao-Dong Wang, Mats Holmström, Stas Barabash, Kai Fan, Yong Wei, Journal of Geophysical Research: Planets, v. 127, i. 8, 2022.

• CME Evolution in the Structured Heliosphere and Effects at Earth and Mars During Solar Minimum, Erika Palmerio, Christina O. Lee, Ian G. Richardson, Teresa Nieves-Chinchilla, Luiz F.G. Dos Santos, Jacob R. Gruesbeck, Nariaki V. Nitta, M. Leila Mays, Jasper S. Halekas, Cary Zeitlin, Shaosui Xu, Mats Holmström, Yoshifumi Futaana, Tamitha Mulligan, Benjamin J. Lynch, and Janet G. Luhmann, Space Weather, 20, e2022SW003215, 2022.

• Mars-ward Ion Flows in the Martian Magnetotail: Mars Express Observations, Chi Zhang, Yoshifumi Futaana, Hans Nilsson, Zhaojin Rong, Moa Persson, Lucy Klinger, Xiaodong Wang, Gabriella Stenberg Wieser, Stas Barabash, Chuanfei Dong, Mats Holmström, and Yong Wei, Geophysical Research Letters, v. 49, 21, 2022.

• Galactic Cosmic Rays at Mars and Venus: Temporal Variations from Hours to Decades Measured as the Background Signal of Onboard Micro-Channel Plates, Yoshifumi Futaana, Manabu Shimoyama, Martin Wieser, Stefan Karlsson, Herman Andersson, Hans Nilsson, Xiao-Dong Wang, Andrey Fedorov, Nicolas Andre, Mats Holmström, and Stas Barabash, The Astrophysical Journal, v. 940, 2, 2022.

• Inner southern magnetosphere observation of Mercury via SERENA ion sensors in BepiColombo mission, Stefano Orsini, Anna Milillo, Herbert Lichtenegger, Ali Varsani, Stas Barabash, Stefano Livi, Elisabetta De Angelis, Gunter Laky, Hans Nilsson, Mark Phillips, Alessandro Aronica, Esa Kallio, Peter Wurz, Tommaso Alberti, Angelo Olivieri, Christina Plainaki, James Slavin, Iannis Dandouras, Jim Raines, Johannes Benkhoff, Joe Zender, Jean-Jacques Bertelier, Melinda Dosa, George Ho, Rosemary Killen, Susan McKenna-Lawlor, Klaus Torkar, Oleg Vaisberg, Frederic Allegrini, Ioannis Daglis, Chuanfei Dong, Philippe Escoubet, Shahab Fatemi, Markus Fraenz, Stavro Ivanovski, N. Krupp, Helmut Lammer, Francois Leblanc, Valeria Mangano, Alessandro Mura, Rosanna Rispoli, Menelaos Sarantos, Todd Smith, Martin Wieser, Fabio Camozzi, Andrea Di Lellis, Gerhard Fremuth, Franz Giner, Reid Gurnee, John Hayes, Harald Jeszenszky, Bradley Trantham, Jan Balaz, Wolfgang Baumjohann, Matteo Cantatore, Dominique Delcourt, Magda Delva, Mihir Desai, Henning Fischer, André Galli, Manuel Grande, Mats Holmström, István Horvath, Ke-Ciang Hsieh, Riku Jarvinen, Robert Johnson, Adrian Kazakov, Karoly Kecskemety, Harald Krüger, Christoph Kürbisch, Frederic Leblanc, Mario Leichtfried, Elio Mangraviti, Stefano Massetti, Dmitry Moissenko, Martina Moroni, Raffaella Noschese, Fabrizio Nuccilli, Nikolaos Paschalidis, Jouni Ryno, Kanako Seki, Artiom Shestakov, Sergey Shuvalov, Roberto Sordini, Filip Stenbeck, Johan Svensson, Sandor Szalai, Karoly Szego, Dominique Toublanc, Nello Vertolli, Robert Wallner, and Audrey Vorburger, Nature Communications, 13, 7390, 2022.

• Solar cycle variation of ion escape from Mars, Hans Nilsson, Qi Zhang, Gabriella Stenberg Wieser, Mats Holmström, Stas Barabash, Yoshifumi Futaana, Andrey Fedorov, Moa Persson, Martin Wieser, Icarus, Vol. 393, 114610, 2023.

• Solar wind interaction with Mars: electric field morphology and source terms, Xiao-Dong Wang, Shahab Fatemi, Hans Nilsson, Yoshifumi Futaana, Mats Holmström, and Stas Barabash, Monthly Notices of the Royal Astronomical Society, Volume 521, Issue 3, 3597-3607, 2023.

• Solar energetic particle events detected in the housekeeping data of the European Space Agency’s spacecraft flotilla in the Solar System, Beatriz Sánchez-Cano, Olivier Witasse, Elise W. Knutsen, Dikshita Meggi, Shayla Viet, Mark Lester, Robert F. Wimmer-Schweingruber, Marco Pinto, Richard Moissl, Johannes Benkhoff, Hermann Opgenoorth, Uli Auster, Jos de Brujine, Peter Collins, Guido De Marchi, Yoshifumi Futaana, James Godfrey, Daniel Heyner, Mats Holmstrom, Andrew Johnstone, Simon Joyce, Daniel Lakey, Santa Martinez, David Milligan, Elsa Montagnon, Daniel Müller, Stefano A. Livi, Timo Prusti, Jim Raines, Ingo Richter, Peter Schmitz, Håkan Svedhem, Matt G.G.T. Taylor, Elena Tremolizzo, Dimitri Titov, Colin Wilson, Simon Wood, Joe Zender, Space Weather, 21, e2023SW003540, 2023.

• Effects of ion composition on escape and morphology on Mars, Qi Zhang, Mats Holmström, and Xiao-Dong Wang, Annales Geophysicae, 41, 375–388, 2023.

• The Influence of Solar Irradiation and Solar Wind Conditions on Heavy Ion Escape From Mars, Qi Zhang, Mats Holmström, Xiao-Dong Wang, Hans Nilsson, Stas Barabash, Journal of Geophysical Research: Space Physics, v. 128, 10, e2023JA031828, 2023.

• Detection of magnetospheric ion drift patterns at Mars, Chi Zhang, Hans Nilsson, Yusuke Ebihara, Masatoshi Yamauchi, Moa Persson, Zhaojin Rong, Jun Zhong, Chuanfei Dong, Yuxi Chen, Xuzhi Zhou, Yixin Sun, Yuki Harada, Jasper Halekas, Shaosui Xu, Yoshifumi Futaana, Zhen Shi, Chongjing Yuan, Xiaotong Yun, Song Fu, Jiawei Gao, Mats Holmström, Yong Wei, and Stas Barabash, Nature Communications, 14, 6866, 2023.

• The Dust, Atmosphere, and Plasma at the Moon, William M. Farrell, Jasper S. Halekas, Mihaly Horányi, Rosemary M. Killen, Cesare Grava, Jamey R. Szalay, Mehdi Benna, Pamela E. Clark, Michael R. Collier, Anthony Colaprete, Jan Deca, Richard C. Elphic, Shahab Fatemi, Yoshifumi Futaana, Mats Holmström, Dana M. Hurley, Georgiana Y. Kramer, Paul R. Mahaffy, Masaki N. Nishino, Sarah K. Noble, Yoshifumi Saito, Andrew R. Poppe, Kurt D. Retherford, Xu Wang, Shoichiro Yokota, Reviews in Mineralogy and Geochemistry, Volume 89, Number 1, 2023.

• Martian global current systems and related solar wind energy transfer: Hybrid simulation under nominal conditions, Xiao-Dong Wang, Shahab Fatemi, Mats Holmström, Hans Nilsson, Yoshifumi Futaana, and Stas Barabash, Monthly Notices of the Royal Astronomical Society, 527(4):12232–12242, 2024.

• Multispacecraft Observations of a Widespread Solar Energetic Particle Event on 15-16 February 2022, L.Y. Khoo, B. Sánchez-Cano, C.O. Lee, L. Rodríguez-García, A. Kouloumvakos, E. Palmerio, F. Carcaboso, D. Lario, N. Dresing, C.M.S. Cohen, D.J. McComas, B.J. Lynch, F. Fraschetti, I.C. Jebaraj, J.G. Mitchell, T. Nieves-Chinchilla, V. Krupar, D. Pacheco, J. Giacalone, H.-U. Auster, J. Benkhoff, X. Bonnin, E.R. Christian, B. Ehresmann, A. Fedeli, D. Fischer, D. Heyner, M. Holmström, et al., The Astrophysical Journal, 963, 107, 2024.

• The Energetic Oxygen Ion Beams in Martian Magnetotail Current Sheets: Hints from the comparisons of two types of current sheets, Chi Zhang, Zhaojin Rong, Xinzhou Li, Markus Fränz, Hans Nilsson, Riku Jarvinen, Moa Persson, Yoshifumi Futaana, Chuanfei Dong, Masatoshi Yamauchi, Jiawei Gao, Yijia Zhou, Lei Wang, Zhen Shi, Yong Wei, Fei He, Mats Holmström, and Stas Barabash, Geophysical Research Letters, 51, e2023GL107190, 2024.

• Future opportunities in solar system plasma science through ESA’s exploration programme, Mats Holmstrom, Mark Lester, and Beatriz Sanchez-Cano, npj Microgravity, volume 10, number 29, 2024.

• Discrete Aurora and the Nightside Ionosphere of Mars: An EMM-MEX Conjunction of FUV Imaging, Ionospheric Radar Sounding, and Suprathermal Electron Measurements, Yuki Harada, Yuka Fujiwara, Robert J. Lillis, Justin Deighan, Hiromu Nakagawa, Beatriz Sánchez-Cano, Mark Lester, Yoshifumi Futaana, Mats Holmström, and Rudy A. Frahm, Earth, Planets and Space, 76, 64, 2024.

• Effects of the 2007 Martian Global Dust Storm on Boundary Positions in the Induced Magnetosphere, Catherine E. Regan, Andrew J. Coates, Mark Lester, Anne Wellbrock, Geraint H. Jones, Beatriz Sánchez-Cano, Richard P. Haythornthwaite, Dikshita Meggi, Philippe Garnier, Rudy A. Frahm, and Mats Holmström, Planetary Science Journal, v. 5, n. 6, 2024.

• Airglow and aurora in the Martian atmosphere: Contributions by the Mars Express and ExoMars TGO Missions, Francisco González-Galindo, Jean-Claude Gérard, Lauriane Soret, Jean-Yves Chaufray, Anna Fedorova, Mats Holmstrom, Franck Lefèvre, Miguel Ángel López-Valverde, and Franck Montmessin, Space Science Reviews, v. 220, n. 42, 2024.

• The Ionosphere of Mars After 20 Years of Mars Express Contributions, Kerstin Peter, Beatriz Sánchez-Cano, František Němec, Francisco González-Galindo, Andrew J. Kopf, Mark Lester, Martin Pätzold, Catherine E. Regan, and Mats Holmström, Space Science Reviews, v. 220, n. 41, 2024.

• Mars’s induced magnetosphere can degenerate, Qi Zhang, Stas Barabash, Mats Holmstrom, Xiao-dong Wang, Yoshifumi Futaana, Christopher M. Fowler, Robin Ramstad, and Hans Nilsson, Nature, 634, 45–47, 2024.

• Mercury’s Field-aligned Currents: Perspectives from Hybrid Simulations, Z. Shi, Z.J. Rong, S. Fatemi, C.F. Dong, Lucy Klinger, J.W. Gao, J.A. Slavin, F. He, Y. Wei, M. Holmström, S.Barabash, Journal of Geophysical Research: Planets, v. 130, n. 2, e2024JE008610, 2025.

• Mars Express investigations of the Martian ionosphere using ASPERA-3 and new MARSIS fixed frequency modes, Mats Holmstrom, Andrii Voshchepynets, Stas Barabash, Sebastián Rojas Mata, Beatriz Sánchez-Cano, Mark Lester, Simon Joyce, Andrea Cicchetti, Roberto Orosei, and Myroslava Hlebena, Advances in Space Research, v. 75, i. 7, 5899-5910, 2025.

• The variability of the topside ionospheres of Venus and Mars as seen by recent radio science observations, Kerstin Peter, Martin Pätzold, Paul Withers, Robin Ramstad, Edward Thiemann, Markus Fränz, Silvia Tellmann, Bernd Häusler, Yoshifumi Futaana, and Mats Holmström, Icarus, v. 432, 116469, 2025.

• Anomalous Transient Enhancement of Planetary Ion Escape at Mars, Chi Zhang, Chuanfei Dong, Hongyang Zhou, Jasper Halekas, Masatoshi Yamauchi, Hans Nilsson, Terry Z. Liu, Moa Persson, Shannon Curry, Yaxue Dong, Yoshifumi Futaana, Yuxi Chen, Muni Zhou, Ruhunusiri Suranga, Kathleen G. Hanley, Christian Mazelle, Shaosui Xu, Robin Ramstad, Mats Holmström, and Li-Jen Chen, Nature Communications, 16, 3159, 2025.

• Spacecraft Discharge Time Constants Determined from Electron-Flux Suppression during Sounding-Radar Operation at Mars, Sebastián Rojas Mata, Stas Barabash, Andrii Voshchepynets, Mats Holmström, Beatriz Sánchez-Cano, Mark Lester, Andrea Cicchetti, and Roberto Orosei, Journal of Geophysical Research: Space Physics, v. 130, i. 4, e2024JA033608, 2025.

• Effects of the 2018 Martian Global Dust Storm on Boundary Positions in the Induced Magnetosphere, Catherine E. Regan, Andrew J. Coates, Mark Lester, Anne Wellbrock, Geraint H. Jones, Beatriz Sanchez-Cano, Philippe Garnier, Louisa J. Preston, František Němec, Vaclav Linzmayer, Rudy A. Frahm, and Mats Holmstrom, Planetary Science Journal, 6, 117, 2025.

• Deriving IMF Properties from Mars Express Heavy Pickup Ion Measurements, Yaxue Dong, Robin Ramstad, Matthew W. Davis, Mats Holmström, David A. Brain, Jared R. Espley, and Shannon M. Curry, Geophysical Research Letters, 52, e2025GL114745, 2025.

• Ion escape from degenerate induced magnetospheres: The case of Mars, Qi Zhang, Stas Barabash, Mats Holmstrom, Xiao-dong Wang, Yoshifumi Futaana, Christopher M. Fowler, Robin Ramstad, and Hans Nilsson, Geophysical Research Letters, v. 52, 12, e2025GL116161, 2025.

• The ionopause at Mars and its correlation with magnetic topology and plasma pressure, Katerina Stergiopoulou, Beatriz Sánchez-Cano, Mark Lester, Christopher M. Fowler, David J. Andrews, Shaosui Xu, Niklas J.T. Edberg, Simon Joyce, Mats Holmström, Jasper S. Halekas, Dikshita Meggi, Anna K. Turner, and Jacob R. Gruesbeck, Journal of Geophysical Research: Space Physics, 130, i. 7, e2024JA032922, 2025.

• The Induced Magnetosphere of Mars and the Near-Mars environment as Revealed by Mars Express, Stas Barabash, Mats Holmström, Robin Ramstad, Futaana Yoshifumi, and Andrei Voshchepynets, Space Science Reviews, 221:79, 2025.

• Chang’E-6 Reveals Solar Wind-Dependent H- Ions on the Moon Tianhua Zhong, Lianghai Xie, Aibing Zhang, Martin Wieser, Wenjing Wang, Mats Holmstrom, Romain Canu-Blot, Lei Li, Stas Barabash, Yongliao Zou, Yiteng Zhang, Qi Yan, Weibin Wen, Xiangjin Deng, Hongqian Cao, Chi Wang, Science Advances, 2025.

Non-Refereed Publications

• An adaptive finite difference method for time dependent PDEs, Report No. 199, Dept. of Scientific Computing, Uppsala University, 1997.

• X-ray imaging of the interaction between the solar wind and non-magnetized planets. IRF Scientific Report 274, March 2001.

• Different models of the Mars solar wind interaction: Implications for ENA imaging, Herbert Gunell, M. Holmström, S. Barabash, E. Kallio, P. Janhunen, A. F. Nagy and Y. Ma. IRF Scientific Report 281, August 2003. ISSN 0284-1703.

• ASPERA-3: Analyser of Space Plasmas and Energetic Ions for Mars Express, S. Barabash, R. Lundin, H. Andersson, J. Gimholt, M. Holmström et al., in Mars Express: The scientific payload, A. Wilson, Ed., ESA Special Publication, SP-1240, 121-139, 2004.

• MHD modeling of the interaction between the solar wind and solar system objects, Mats Holmström and Andreas Ekenbäck. SNIC annual Progress Report, 2005.

• The role of intrinsic magnetic fields in the planetary evolution and habitability: Planetary protection aspects, M. L. Khodachenko, H. Lammer, H. I. M. Lichtenegger, J.-M. Grießmeier, M. Holmström, and A. Ekenbäck, Cosmic Magnetic Fields: From Planets, to Stars and Galaxies, IAU Symposium No. 259, 283–295, K.G. Strassmeier, A.G. Kosovichev & J.E. Beckman, eds., 2009.

• Global Imaging of Solar Wind-Planetary Body Interactions using Soft X-ray Cameras, Michael R. Collier, Thomas E. Cravens, Mats Holmstrom, et al.. A White Paper Submitted to the NRC Planetary Science Decadal Survey, 2009.

• ASPERA-3: Analyser of Space Plasmas and Energetic Neutral Atoms, R. Lundin, S. Barabash, M. Holmström et al., in Mars Express: The scientific payload, ESA Special Publication, SP-1291, 199–215, 2009.

• The Interaction Between the Solar Wind and Planets, SNIC annual Progress Report, 2010.

• Exoplanet Upper Atmosphere Environment Characterization, Helmut Lammer, Kristina G. Kislyakova, Petra Odert, Martin Leitzinger, Maxim L. Khodachenko, Mats Holmström and Arnold Hanslmeier, From Interacting Binaries to Exoplanets: Essential Modeling Tools, IAU Symposium S282, 525–532, Mercedes T. Richards & Ivan Hubeny, eds., 2012.

• Modeling the Lunar plasma wake, M. Holmström, B. Eliasson, O5.409, 39th EPS Conference on Plasma Physics and 16th International Congress on Plasma Physics, S. Ratynskaya, L. Blomberg, A. Fasoli, eds., Europhysics Conference Abstracts, Vol. 36F, ISBN 2-914771-79-7, European Physical Society, 2012.

• The Hot and Energetic Universe: Solar system and exoplanets, G. Branduardi-Raymont, S. Sciortino, K. Dennerl, M. Güdel, M. Holmstrom, D. Koutroumpa, A. Maggio, G. Micela, I. Pillitteri, J. Sanz-Forcada, A. Read, A. Bhardwaj, Y. Ezoe, and R. Gladstone, arXiv, 1306.2332, 2013.

• Stability of Earth-like N2 atmospheres: Implications for habitability, H. Lammer, K.G. Kislyakova, M. Güdel, M. Holmström, N.V. Erkaev, P. Odert, and M.L. Khodachenko, The early evolution of the atmospheres of terrestrial planets, Astrophysics and Space Science Proceedings, Vol. 35, Springer, 33–52, J.M. Trigo-Rodriguez, F. Raulin, C. Muller & C. Nixon, eds., 2013.

• Handling vacuum regions in a hybrid plasma solver, Numerical modeling of space plasma flows (ASTRONUM-2012), ASP Conference Series, vol. 474, 202–207, 2013.

• Stellar Driven Evolution of Hydrogen-Dominated Atmospheres from Earth-like to Super-Earth-type Exoplanets, Kristina G. Kislyakova, Mats Holmström, Helmut Lammer, and Nikolai V. Erkaev, Characterizing Stellar and Exoplanet Environments, Helmut Lammer & Maxim L. Khodachenko, eds., Astrophysics and Space Science Library Volume 411, Springer, 137–151, 2015.

• Characterising exoplanets and their environment with UV transmission spectroscopy, L. Fossati et al., White paper submitted to STScI for Hubble’s 2020 vision, 2015. arXiv:1503.01278

• ESA SciSpacE white papers, Astrophysics, Space Plasma Physics, 2021.

• The Influence of Planetary and Stellar Characteristics on Atmospheric Escape and Habitability, Whitepaper #037 in the Decadal Survey for Solar and Space Physics (Heliophysics) 2024-2033, Dave Brain, Ofer Cohen, Kevin France, Yoshifumi Futaana, Alex Glocer, Parker Hinton, Mats Holmstrom, François Leblanc, Yingjuan Ma, William Peterson, Shotaro Sakai, Ennio Sanchez, Neesha Schnepf, and Robert Strangeway, Bulletin of the AAS, Vol. 55, Issue 3, 2023.

• Atmospheric Escape Influences Planetary Habitability, D. Brain et al., Community White Papers for NASA Decadal Astrobiology Research and Exploration Strategy (NASA-DARES 2025)

Popular Publications

• Parallelizing the Fast Wavelet Transform, PDC Progress Report, Parallelldatorcentrum, KTH, 76–78, 1993.

• Interpreting an ENA image, Aspera Aspirations, IRF, 1:5, 2001.

• Charge-Exchange Processes near Mars, HPC2N Progress Report, High Performance Computing Center North, Umeå University, 24–25, 2002.

• Where did the water on Mars go?, Nordic Space Activities, 1:8–9, 2003.

• ASPERA-3 on its way to Mars, Nordic Space Activities, 3:15–16, 2003.

• Ett Svenskt instrument vid Mars, Aktuell Forskning & Utveckling, 2, 2004.

• Written in the stars, Public Service Review: European Science & Technology, 10, 2011.

• Written in the stars, Public Service Review: European Union, 21, 2011.

Invited Presentations

• Stanford, July 1997, Solving hyperbolic PDEs using interpolating wavelets, SIAM Annual Meeting.

• Umeå, November 8, 2000, Simulations of Charge-Exchange Processes near Mars, The HPC2N Workshop on Computing in Science and Engineering.

• Nice, March 26, 2001, X-ray Imaging of the Solar Wind-Mars Interaction, EGS XXVI General Assembly.

• Bern, October 25, 2001. Simulations of charge-exchange processes near Mars, Mars’ magnetism, and its interaction with the solar wind: A comparison of Mars Global Surveyor and Phobos mission data, Workshop, International Space Science Institute (ISSI).

• Houston, October 15, 2002. The Solar Wind Interaction with Venus and Mars: Energetic Neutral Atom and X-Ray Imaging, World Space Congress, COSPAR.

• Paris, July 20, 2004. The Latest Results on the Energetic Neutral Atoms and Plasma of Mars from the ASPERA Instrument of Mars Express, COSPAR.

• Paris, July 22, 2004. ENA Imaging on Moon, COSPAR.

• Umeå, October 12, 2004. A Journey to Mars, the moon, Venus and Mercury: Computer Simulations in Solar System Physics, SNIC/HPC2N-evaluation.

• Umeå, December 7, 2004. A Journey to Mars, the moon, Venus and Mercury: Computer Simulations in Solar System Physics, Inauguration of HPC2Ns cluster Sarek.

• San Francisco, December 17, 2004. Exploring the Moon and Mars solar wind interaction using energetic neutral atoms, AGU Fall Meeting.

• Singapore, June 20, 2005, ENA observations in the eclipse of Mars, AOGS 2nd Annual Meeting.

• Singapore, June 21, 2005, Energetic Neutral Atom Imaging of Mercury and the Moon. Science and Instrumentation AOGS 2nd Annual Meeting.

• Singapore, June 23, 2005, ENA Production at Mars, the Moon, and Mercury, AOGS 2nd Annual Meeting.

• Singapore, June 23, 2005, ENA emissions from Mars: simulations and observations on Mars Express, AOGS 2nd Annual Meeting.

• Singapore, June 23, 2005, Analyzer of Space Plasmas and Energetic Neutral Atoms (ASPERA-4) Onboard Venus Express, AOGS 2nd Annual Meeting.

• Lund, November 21, 2006, Solar Wind-Planet Interactions, SNIC Interaction.

• Bern, March 17, 2008, Characterisation of exoplanet atmospheres, magnetospheres and stellar winds from ENA observations, ISSI team meeting on ”Characterisation and Evolution of Exoplanet Atmospheres”

• Bern, February 10, 2009, A modular hybrid code, ISSI team meeting on ”Intercomparison of Global Models and Measurements of the Martian Plasma Environment”

• Bern, March 23, 2009, Energetic neutral atoms around HD 209458b: Estimations of magnetospheric properties, ISSI team meeting on ”Characterisation and Evolution of Exoplanet Atmospheres”

• Uppsala, June 29–July 3, 2009, Hybrid modeling of plasmas, European Conference on Numerical Mathematics and Advanced Applications, ENUMATH 2009.

• Graz, Austria, November 30, 2009, Characterizing stellar winds via exoplanet-ENA-cloud observations, ESF strategic workshop: Observation, characterisation and evolution of habitable exoplanets and their host stars.

• San Diego, June June 13–18, 2010, Hybrid modeling of space plasmas using the FLASH code, 5th International Conference on Numerical Modeling of Space Plasma Flows, ASTRONUM 2010.

• Bern, June 22, 2010, Observational constraints on the exospheres and stellar wind interactions of transiting exoplanets, ISSI team meeting on ”Characterisation and Evolution of Exoplanet Atmospheres”

• Rome, September 21, 2010, Energetic Neutral Atoms in Planetary Systems, European Planetary Science Congress.

• ESAC, Madrid, September 30, 2010, Energetic Neutral Atom Observations in the Solar System and Beyond, Charge Exchange Madrid.

• Sapporo, Japan, October 8, 2010, Modeling the Interaction Between the Moon and the Solar Wind, 5th Alfven Conference on Plasma Interaction with Non-magnetized Planets/Moons and its Influence on Planetary Evolution, Hokkaido University.

• Melbourne, Australia, July 6, 2011, The Interaction Between the Moon and the Solar Wind, IUGG.

• Ahmedabad, India, December 13, 2011, Modeling the moon-solar wind interaction, 7th Chandrayaan-1 Meeting, Physical Research Laboratory.

• Bern, March 20, 2012, ENA observations in the solar system and beyond, ISSI team meeting on ”Characterizing stellar and exoplanetary environments via observations and advanced modelling techniques”.

• Umeå, May 31, 2012. How Stellar Winds Interact with Planets, HPC2N Symposium — Inauguration of Abisko.

• Big Island, Hawaii, USA, June 26, 2012. Handling Vacuum Regions in a Hybrid Plasma Solver, ASTRONUM 2012.

• Beijing, China, August 27, 2012. Characterisation of exoplanet atmospheres, magnetospheres and stellar winds from energetic neutral atom observations, IAU XXVIII General Assembly.

• Bern, November 13, 2012, An Open Hybrid Plasma Solver: Capabilities for Airless Bodies, ISSI team meeting on ”Kinetic plasma processes at airless bodies”.

• Bern, January 14, 2013, Observations and modeling of soft X-rays from Venus and Mars, ISSI team meeting on ”Soft X-ray Emissions”.

• Stockholm, June 18, 2013. Characterisation of exoplanet atmospheres, magnetospheres and stellar winds from energetic neutral atom observations, Nordita Scientific program on Photo-Evaporation in Astrophysical Systems.

• Biarritz, France, July 2, 2013. Hybrid modeling of the interaction between the solar wind and planets, ASTRONUM 2013.

• Les Houches, France, October 24, 2013. Aeronomy, atmosphere-solar wind interaction, escape, Planet Mars IV workshop.

• Long Beach, USA, June 27, 2014. A Hybrid Model for the Interaction Between the Solar Wind and Planets Implemented in FLASH, ASTRONUM 2014.

• Bern, August 10, 2015, An Open Hybrid Plasma Solver: Recent activities, ISSI team meeting on ”Kinetic plasma processes at airless bodies”.

• Dubrovnik, Croatia, May 26, 2016, Current Systems at Moons, AGU Chapman Conference on Currents in Geospace and Beyond.

• Riga, Latvia, September 21, 2017. Interaction between Mars’ induced magnetosphere and the comet Siding Spring, European Planetary Science Congress 2017.

• Umeå, November 30, 2017. How the Solar Wind interacts with the Moon, Mars, Comets, Ceres, Ganymede, Callisto and Exoplanets, HPC2N Open House with Kebnekaise Celebration.

• Nicosia, Cyprus, October 15, 2018. Highlights from ASPERA-3 during 10 years of MUAN, MUAN Jubilee Workshop, International Space Summit.

• KTH, October 12, 2020. Mars and Lunar exploration, ongoing activities at IRF, Space Rendezvous: Towards Moon and Mars.

• Boulder, USA, October 16, 2024. ASPERA-3 update, MAVEN Team Meeting.

• Umeå, October 16, 2025. Particle-in-cell simulations of the interactions between the solar wind and planets, Keynote talk, the Swedish eScience Academy.

Seminars

• Uppsala, April 1997, Solving hyperbolic PDEs using interpolating wavelets, TDB Seminar.

• Uppsala, May 1999, Solving hyperbolic PDEs using conservative subdivision, TDB Seminar.

• Kiruna, June 1999, Solving hyperbolic PDEs using conservative subdivision, IRF Seminar.

• Chicago, May 22, 2000, Energetic neutral atom images near Mars: On the parameterization of the Mars-Solar wind interaction models, University of Chicago, Dept. of Computer Science.

• Helsinki, August 30, 2000, ENA Simulations at IRF, 6th ASPERA-3 Meeting, Hotel Kiljavanranta.

• Uppsala, December 13, 2000, Simulations of charge-exchange processes near Mars and related inverse problems, Uppsala University, Dept. of Scientific Computing.

• Kiruna, February 13, 2001, Simulations of Charge-Exchange Processes near Mars, IRF Seminar.

• Kiruna, November 6, 2001, Fast neutral atom imaging: A journey to Mars, Mercury, and back, IRF Seminar.

• Kiruna, June 4, 2002, Fast Volume Rendering, IRF Seminar.

• Kiruna, September 5, 2002. Simulations of charge-exchange processes near Mars, IRF dagarna.

• Kiruna, October 30, 2002, Computing ion distributions near Mercury using the HPC2N Super Cluster, HPC2N Seminar.

• Kiruna, November 5, 2002, The Solar Wind Interaction with Venus and Mars: Energetic Neutral Atom and X-Ray Imaging, 8th ASPERA-3 Meeting, ASPERA-4 Kick-off Meeting, IRF.

• Stockholm, January 22, 2003, Computer Simulations of the Solar Wind Interaction with Solar System Objects: Applications for X-ray and ENA Imaging, KTH, Nada.

• Coventry, U.K., January 24, 2003, Computer Simulations of the Solar Wind Interaction with Solar System Objects: Applications for X-ray and ENA Imaging, University of Warwick, Space and Astrophysics Group.

• Kiruna, October 23, 2003, Monte Carlo simulations of planetary ions and neutrals at Mercury, IRF Seminar.

• Kiruna, October 14, 2004. Are Computer Simulations Science?, Docent Lecture.

• Greenbelt, Maryland, USA, August 29, 2005, ENA emissions from Mars: simulations and observations on Mars Express, LENA team telecon, NASA, GSFC.

• Kiruna, October 4, 2007, Energetic Neutral Atoms Around Extrasolar Planets, IRF Seminar.

• Bern, March 19, 2008, Energetic neutral atoms as the explanation for high-velocity hydrogen around an extrasolar planet, University of Bern.

• Uppsala, December 10, 2008, Characterisation of exoplanet atmospheres, magnetospheres and stellar winds from energetic neutral atom observations, Swedish Institute of Space Physics/Department of Astronomy and Space Physics, Uppsala University.

• Stockholm, March 25, 2010, The interaction of the solar wind with planets, SRS Meeting, Stockholm University.

• Kiruna, September 9, 2010, Modeling the Interaction Between the Moon and the Solar Wind, IRF Seminar.

• Sao Jose dos Campos, Brazil, November 24, 2010, Interactions between the solar wind and planets, Instituto Nacional de Pesquisas Espaciais (INPE; National Institute for Space Research).

• Stockholm, March 19, 2011, The Solar Wind Interaction with the Moon, the Alfvén Laboratory, Royal Institute of Technology (KTH), Stockholm.

• Stockholm, October 14, 2011, Characterisation of exoplanet atmospheres, magnetospheres and stellar winds from energetic neutral atom observations, The Department of Astronomy at Stockholm University, Stockholm.

• Kiruna, May 24, 2012, Modeling the Interaction Between the Moon and the Solar Wind. Part II, IRF Seminar.

• Kiruna, September 25, 2014, Planetary solar wind charge exchange X-ray emissions, IRF Seminar.

• Kiruna, October 17, 2014, Comet Siding Spring flyby of Mars, IRF Seminar.

• Kiruna, September 8, 2016, Colliding magnetospheres: Comet Siding Spring flyby of Mars, IRF Seminar.

• Uppsala, November 30, 2016, Hybrid modeling of the interaction between the solar wind and planets, Uppsala University, Dept. of Scientific Computing.

• Kiruna, May 24, 2018, Mars Express and ASPERA-3 celebrates 15 years at Mars, IRF Seminar.

• Kiruna, April 15, 2021, Estimating Ion Escape from Unmagnetized Planets, IRF Seminar.

• Kiruna, March 3, 2022, Did Mariner IV cross the bow wave of Mars?, IRF Seminar.

• Kiruna, September 21, 2023, Mars Express and ASPERA-3: Twenty years at Mars, IRF Seminar.

• Kiruna, October 2, 2025, Current systems at non-magnetized planets, IRF Seminar.

Contributed Presentations

• Oslo, January 1997, Solving hyperbolic PDEs using interpolating wavelets, Nordic computational differential equations circus.

• Atlanta, May 1999, Solving hyperbolic PDEs using conservative subdivision, SIAM Annual Meeting.

• Jyväskylä, July 1999, Solving hyperbolic PDEs using conservative subdivision, Enumath 99.

• Washington D. C., May 30, 2000, Energetic neutral atom images near Mars: On the parameterization of the Mars-Solar wind interaction models, AGU Spring Meeting.

• San Francisco, December 16, 2000, X-ray Imaging of the Solar Wind-Mars Interaction, AGU Fall Meeting.

• Chicago, October 4, 2001, Neutral Atom Imaging near Mercury, Workshop on Mercury: Space Environment, Surface, and Interior The Lunar and Planetary Institute.

• Yosemite National Park, February 8, 2002. Fast imaging of energetic neutral atoms near Mars, Magnetospheric Imaging Workshop.

• Nice, April 7, 2003, Monte Carlo simulations of global planetary ion distributions at Mercury poster presentation, EGS - AGU - EUG Joint Assembly.

• Lyngby, June 22, 2004. MHD modeling of the interaction between the solar wind and solar system objects, PARA’04.

• Vienna, April 29, 2005, ENA observations in the eclipse of Mars, EGU General Assembly.

• San Francisco, December 5, 2005. Mars Express/ASPERA-3/NPI and IMAGE/LENA Observations Downstream of the Heliospheric Neutral Atom Flow, M.R. Collier, M. Holmström, et al., AGU Fall Meeting.

• San Francisco, December 8, 2005. A Collisional Exospheric Model for Mars: Implications for X-ray and ENA Imaging, AGU Fall Meeting.

• Kiruna, Sweden, March 1, 2006, Asymmetries in Mars’ Exosphere: Implications for X-ray and ENA Imaging, Kiruna Mars Workshop: Solar wind interaction and atmospheric evolution.

• Bejing, July 17–21, 2006. The effects of Mars’ exosphere on ENA observations, COSPAR.

• Umeå, Sweden, June 18–21, 2006, A Modular Software for Particle Simulations in Space Physics, PARA 06.

• Berlin, September 18–22, 2006. The effects of Mars’ exosphere on ENA observations,
  The Hydrogen Energetic Neutral Atom Environment of Hot Jupiters, A. Ekenbäck, M. Holmström, et al., The European Planetary Science Congress.

• San Francisco, December 11–15, 2006. Modeling Mars’ Hydrogen Exosphere, AGU Fall Meeting.

• Potsdam, Germany, August 22, 2007. Energetic neutral atoms around the extrasolar planet HD 209458b, European Planetary Science Congress.

• San Francisco, December 10–14, 2007. Energetic Neutral Atoms Around the Extrasolar Planet HD 209458b, AGU Fall Meeting.

• San Diego, January 22–25, 2008. Why should we compare models?, Chapman Conference on the Solar Wind Interaction with Mars.

• San Diego, January 22–25, 2008. A self-consistent Mars-Solar wind interaction model, poster presentation, Chapman Conference on the Solar Wind Interaction with Mars.

• Boston, May 19–23, 2008. Energetic neutral atoms as the explanation for the high velocity hydrogen around HD 209458b, Transiting Planets, IAU Symposium No. 253.

• Saint Petersburg, May 26–30, 2008. Energetic neutral atoms as the explanation for the high velocity hydrogen around HD 209458b (presented by T. Penz), Problems of Geocosmos.

• Vienna, April 23, 2009, Modeling the solar wind interaction with the Moon, EGU General Assembly.

• Potsdam, Germany, September 13-18, 2009. ENAs around HD 209458b: Estimations of magnetospheric properties, European Planetary Science Congress.

• Macau, October 21–24, 2009. Global hybrid simulation of the solar wind-Moon interaction, Lunar Plasma Environment Science Workshop.

• San Francisco, December 14–18, 2009. Dynamics of solar wind protons reflected by the Moon, AGU Fall Meeting.

• San Francisco, December 8, 2011. The Dynamic Lunar Wake, AGU Fall Meeting.

• Stockholm, July 6, 2012. Modeling the Lunar plasma wake, 39th European Physical Society Conference on Plasma Physics, 16th International Congress on Plasma Physics.

• Madrid, Spain, 23–28 September, 2012. An Open Hybrid Plasma Solver, European Planetary Science Congress.

• San Francisco, December 6, 2012. The Interaction Between the Moon and the Solar Wind, AGU Fall Meeting.

• San Francisco, December 10, 2013. Callisto Plasma Interactions, AGU Fall Meeting.

• London, July 10, 2014. Mars as a comet, 6th Alfven Conference.

• San Francisco, December 17, 2014. Modeling the plasma interactions of Phobos, AGU Fall Meeting.

• Lund, May 8, 2015. Characterising exoplanet atmospheres, magnetospheres and stellar winds from energetic neutral atom observations, Exoplanets in Lund 2015.

• Singapore, August 7, 2015. Mars solar wind interaction, AOGS 12th Annual Meeting.

• Lancaster, September 22, 2015. Siding Spring: Ion observations and hybrid modelling, MUAN meeting.

• San Francisco, December 16, 2015. The Interaction Between the Magnetosphere of Mars and that of Comet Siding Spring, AGU Fall Meeting.

• Los Angeles, 19 October, 2016. Ceres interaction with the solar wind, DPS48/EPSC11.

• San Francisco, December 12, 2016. Colliding magnetospheres: Comet Siding Spring flyby of Mars, AGU Fall Meeting.

• Boulder, Colorado, USA, May 17, 2017. The Mars Express/ASPERA-3 and Venus Express/ASPERA-4 solar wind databases, International Conference on Mars Aeronomy.

• Kiruna, Sweden, September 15, 2017. Characterizing exoplanet atmospheres, magnetospheres and stellar winds from energetic neutral atom observations, Astronomdagarna 2017.

• Madrid, Spain, February 27, 2018. The Mars Express/ASPERA-3 and Venus Express/ASPERA-4 solar wind databases, Mars Science Workshop ”From Mars Express to ExoMars”.

• ESTEC, May 14, 2018. The Mars Express/ASPERA-3 and Venus Express/ASPERA-4 solar wind databases, 52nd ESLAB Symposium: Comparative Aeronomy and Plasma Environment of Terrestrial Planets.

• Hawaii, USA, June 4, 2018. The Solar Wind Interaction with Mercury, AOGS.

• Pasadena, USA, July 18, 2018. The Solar Wind Interaction with Mercury, COSPAR.

• San Francisco, December 11, 2019. Stellar Wind Energy Influx to Intrinsic Magnetospheres, AGU Fall Meeting.

• Virtual, 15–17 June, 2021. Estimating Ion Escape from Unmagnetized Planets, Workshop on the Influence of a Global Magnetic Field on Ion and Atmospheric Loss and Planetary Habitability.

• New Orleans, 13 December, 2021, Estimating Ion Escape from Unmagnetized Planets, AGU Fall Meeting.

• Uppsala, 2 May, 2022. Estimations of Ion Escape from Mars, Mars Upper Atmosphere Network (MUAN) Meeting.

• Athens, Greece, July 22, 2022. Estimations of Ion Escape from Mars, 44th COSPAR Scientific Assembly.

• Granada, Spain, 22 September, 2022. Estimations of Ion Escape from Mars, Europlanet Science Congress.

• New York, 12 September, 2023. The influence of solar wind conditions on ion escape at Mars, MUAN and MAVEN meeting.

• San Antonio, 3 October, 2023. The Influence of Solar Irradiation and Solar Wind Conditions on Heavy Ion Escape From Mars, DPS 55 joint with EPSC 2023..

• San Francisco, 14 December, 2023. The Influence of Solar Irradiation and Solar Wind Conditions on Heavy Ion Escape From Mars, AGU Fall Meeting.

• Busan, Korea, 15 July, 2024. Ion Escape and Current Systems at Mars, 45th COSPAR Scientific Assembly.

• Pasadena, USA, 23 July, 2024. Ion Escape and Current Systems at Mars, Tenth International Conference on Mars.

• Beijing, China, 27 August, 2024. Mars Express related science and archiving, ISSI-BJ Team Meeting.

• London, UK, 20 May, 2025. Modeling Mars’ plasma system global dynamics, 2025 M-MATISSE Community Workshop.

• Madison, USA, 17 July, 2025. Stellar wind interactions with resistive obstacles, ASTRONUM 2025.

• Lisabon, Portugal, 1 September, 2025. Current systems at non-magnetized planets, IAGA/IASPEI Joint Scientific Meeting 2025.

• Helsinki, Finland, 8 September, 2025. Current systems at non-magnetized planets, EPSC-DPS Joint Meeting 2025.

• New Orleans, USA, 15-19 December, 2025. The dynamics of ion escape from non-magnetized planets, AGU25.

Popular

• Uppsala University, October, 1997, Wavelet Based Methods for Time Dependent PDEs, Doctoral thesis, Uppsala University.

• Kiruna, February 1999, Vetenskapliga beräkningar och virtuella satelliter, IRF Seminar.

• Kiruna, March 26, 2002, and April 14, 2003, Interaction processes between the solar wind and planets: Current and future satellite experiments, presentation for Austrian physics teachers.

• Kiruna, October 24, 2002. X-ray emissions from comets and planets, presentation for NV1, Hjalmar Lundbohmsskolan.

• Kiruna, September 27-28, 2003. ASPERA-3 Status and IRFs Part in SMART-1, presentation at SMART-1 launch event.

• Kiruna, November 27, 2003. Mars Express: Kiruna på väg till Mars, presentation at Ferrum for Dataföreningen.

• Kiruna, January 29, 2004. Aktuella rymdprojekt vid IRF, presentation at KRM for University of Lund, ”Rymdens fysik”.

• Kiruna, March 30, 2004. Kommunikation i rymden, SUNET TREFpunkt vårmöte.

• Kiruna, May 6, 2004. Mars Exploration, presentation for students from Donnergymnasiet.

• Kiruna, October 22, 2004. Kiruna goes to the moon – Science with SARA. Moon event, IRF.

• Kiruna, January 28, 2007. Svenska instrument vid Mars och Venus. Presentation in the City Hall during the annual Snow Festival.

• Kiruna, April 24, 2007. Swedish Instruments at Mars and Venus. Presentation for students from Rymdgymnasiet 2 and Belgium.

• Kiruna, August 29, 2007. Svenska instrument vid Mars och Venus, presentation for NV 1-3, Hjalmar Lundbohmsskolan.

• Kiruna, February 18, 2008. IRF Instruments at Mars and Venus. Presentation for Space Master students, LTU.

• Kiruna, May 28, 2008. Svenska instrument vid Mars och Venus. Presentation for Technical Visits’ guides.

• Kiruna, May 30, 2008. Datormodeller för Mars. Presentation for students at Rymdgymnasiet.

• Kiruna, January 19, 2009. Exoplaneter. Presentation for students at Rymdgymnasiet 3.

• Kiruna, June 16, 2009. Svenska instrument vid Mars och Venus, presentation for high school students from Skövde.

• Kiruna, June 7, 2010. Solsystemets Fysik. Presentation for students at Rymdgymnasiet.

• Kiruna, November 30, 2011. Hur solvinden påverkar planeter. Presentation for Rymdgymnasiet.

• Kiruna, February 17, 2015. Hur solvinden påverkar planeter. Presentation for Rymdgymnasiet.

• Kiruna, November 9, 2016. Answering space questions on Skype, Kästa school, Huddinge.

• Luleå, October 16, 2017. Institutet för rymdfysik (IRF): Sveriges främsta rymdforskningsinstitut, Möte med Region Norrbotten.

• Kiruna, January 4, 2018. Overview of planetary projects at IRF in Kiruna, Astronomisk Ungdom.

• Kiruna, February 14, 2018. Presentation of the Swedish Institute of Space Physics, IRF and their research, SpaceMaster students.

• Kiruna, 29 november, 2018. Exoplaneter, Presentation vid Rymdgymnasiets temadag om exoplaneter.

• Kiruna, 25 september, 2020. Mars, månen och Jupiter, Presentation för Rymdgymnasiet vid Astronomins Dag och Natt.

• Kiruna, May 7, 2021. Vart tog vattnet vägen på Mars? Norra Tjust Rotaryklubb.

• Kiruna, August 19, 2021. Jupiter, Månen och Mars (Vart tog vattnet vägen på Mars?). Rymdgymnasiet.

• Kiruna, November 3, 2021. Jupiter, Månen och Mars (Vart tog vattnet vägen på Mars?). Scouter.

• Kiruna, March 10, 2022. Jupiter, Månen och Mars (Vart tog vattnet vägen på Mars?). Gymnasieelever

• Kiruna, June 29, 2022. Mars Express and ASPERA-3: 18 years at Mars. Wigner Space Group Visit.

• Kiruna, May 23, 2024. Jupiter, Månen och Mars (Vart tog vattnet vägen på Mars?). Students at Vargen.

• Beijing, China, 26 August, 2024. Mars and Mars Express. ISSI-BJ Team Meeting, Lecture to Chinese students.

• Kiruna, 20 december, 2024. Swedish Institute of Space Physics: Jupiter, the Moon, Mars and Venus. Students from Uleåborg.

• Kiruna, 7 january, 2025. Swedish Institute of Space Physics: Jupiter, the Moon, Mars and Venus. Spanish physics students.

• online, 5 february, 2025. Particle-in-cell simulations of the interactions between the solar wind and planets. HPC2N Fika.