{"id":18,"date":"2018-06-12T22:26:15","date_gmt":"2018-06-12T20:26:15","guid":{"rendered":"http:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/?page_id=18"},"modified":"2018-06-12T22:26:15","modified_gmt":"2018-06-12T20:26:15","slug":"list-of-publications","status":"publish","type":"page","link":"https:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/sample-page\/list-of-publications\/","title":{"rendered":"List of Publications"},"content":{"rendered":"
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  1. Turner, D.L.<\/strong>, L.B. Wilson III<\/strong>, T.Z. Liu<\/strong>, I.J. Cohen, S.J. Schwartz<\/strong>, A. Osmane<\/strong>, et al.<\/em>, “Autogenous and efficient acceleration of energetic ions upstream of Earth’s bow shock,” Nature<\/em> 561<\/strong>(7722), pp. 206\u2013210, doi:10.1038\/s41586-018-0472-9<\/a>, 2018.<\/li>\n
  2. Goodrich, K.A.<\/strong>, R.E. Ergun, S.J. Schwartz<\/strong>, L.B. Wilson III<\/strong>, et al., “MMS Observations of Electrostatic Waves in an Oblique Shock Crossing,” J. Geophys. Res.<\/em> 123<\/strong>(11), pp. 9430\u20139442, doi:10.1029\/2018JA025830<\/a>, 2018.<\/li>\n
  3. Wang, S., L.-J. Chen<\/strong>, N. Bessho, M. Hesse, L.B. Wilson III<\/strong>, B.L. Giles, T.E. Moore, C.T. Russell, R.B. Torbert, and J.L. Burch “Observational evidence of magnetic reconnection in the terrestrial bow shock transition region,” Geophys. Res. Lett.<\/em> 46<\/strong>(2), pp 562\u2013570, doi:10.1029\/2018GL080944<\/a>, 2019.<\/li>\n
  4. Goodrich, K.A.<\/strong>, R.E. Ergun, S.J. Schwartz<\/strong>, L.B. Wilson III<\/strong>, A. Johlander<\/strong>, et al. “Impulsively Reflected Ions: A Plausible Mechanism for Ion Acoustic Wave Growth in Collisionless Shocks,” J. Geophys. Res.<\/em> 124<\/strong>(3), pp. 1855\u20131865, doi:10.1029\/2018JA026436<\/a>, 2019.<\/li>\n
  5. Gingell, I.<\/strong>, S.J. Schwartz<\/strong>, et al., “Observations of Magnetic Reconnection in the Transition Region of Quasi-Parallel Shocks,” Geophys. Res. Lett.<\/em> 46<\/strong>(3), pp. 1177-1184, doi:10.1029\/2018GL081804<\/a>, 2019.<\/li>\n
  6. Ofman, L., A. Koval, L.B. Wilson III<\/strong>, and A. Szabo “Understanding the Role of \u03b1 Particles in Oblique Heliospheric Shock Oscillations,” J. Geophys. Res.<\/em> 124<\/strong>(4), pp. 2393\u20132405, doi:10.1029\/2018JA026301<\/a>\u00a02019.<\/li>\n
  7. Wilson III, L.B.<\/strong>,\u00a0L.-J. Chen<\/strong>, S. Wang, S.J. Schwartz<\/strong>, D.L. Turner<\/strong>, M.L. Stevens, J.C. Kasper, A. Osmane<\/strong>,\u00a0D. Caprioli<\/strong>, S.D. Bale, M.P. Pulupa, C.S. Salem, and K.A. Goodrich<\/strong> “Supplement to: Electron energy partition across interplanetary shocks,” doi:10.5281\/zenodo.2875806<\/a>, 2019.<\/li>\n
  8. Wilson III, L.B.<\/strong>,\u00a0L.-J. Chen<\/strong>, S. Wang, S.J. Schwartz<\/strong>, D.L. Turner<\/strong>, M.L. Stevens, J.C. Kasper, A. Osmane<\/strong>,\u00a0D. Caprioli<\/strong>, S.D. Bale, M.P. Pulupa, C.S. Salem, and K.A. Goodrich<\/strong> “Electron energy partition across interplanetary shocks: I. Methodology and Data Product,” Astrophys. J. Suppl.<\/em>\u00a0243<\/strong>(8), doi:10.3847\/1538-4365\/ab22bd<\/a>, 2019a. arXiv<\/em> eprint 1902.01476<\/a><\/li>\n
  9. Cohen, I.J., S.J. Schwartz<\/strong>, K.A. Goodrich<\/strong>, et al., “High-resolution measurements of the cross-shock potential, ion reflection, and electron heating at an interplanetary shock by MMS,” J. Geophys. Res.<\/em> 124<\/strong>(6), pp. 3961\u20133978, doi:10.1029\/2018JA026197<\/a>, 2019.<\/li>\n
  10. Liu, T.Z.<\/strong>, et al., “Relativistic electrons generated at Earth’s quasi-parallel bow shock,” Sci. Adv.<\/em> 5<\/strong>(7), pp. 5, doi:10.1126\/sciadv.aaw1368<\/a>, 2019.<\/li>\n
  11. Liu, T.Z.<\/strong>, et al., “THEMIS Observations of Particle Acceleration by a Magnetosheath Jet-Driven Bow Wave,” Geophys. Res. Lett.<\/em> 46<\/strong>(14), pp. 7929-7936, doi:10.1029\/2019GL082614<\/a>, 2019.<\/li>\n
  12. Bessho, N., L.-J. Chen<\/strong>, S. Wang, L.B. Wilson III<\/strong>, and M. Hesse “Fully kinetic simulations of magnetic reconnection in the Earth\u2019s quasi-parallel bow shock,” Geophys. Res. Lett.<\/em> 46<\/strong>(16), pp. 9352-9361, doi:10.1029\/2019GL083397<\/a>, 2019.<\/li>\n
  13. Oka, M., F. Otsuka, S. Matsukiyo, L.B. Wilson III<\/strong>, T.D. Phan, T. Amano, M. Hoshino<\/strong>, M.R. Argall, O. Le Contel, D.J. Gershman, J.L. Burch, R.B. Torbert, J.C. Dorelli, B.L. Giles, R.E. Ergun, C.T. Russell, P.A. Lindqvist “Electron Scattering by Low-Frequency Whistler Waves at Earth’s Bow Shock,” Astrophys. J.<\/em>\u00a0886<\/strong>(53), pp. 11, doi:10.3847\/1538-4357\/ab4a81<\/a>, 2019.<\/li>\n
  14. Trotta, D., and D. Burgess<\/strong> “Electron acceleration at quasi-perpendicular shocks in sub- and supercritical regimes: 2D and 3D simulations,” Mon. Not. Roy. Astron. Soc.<\/em> 482<\/strong>, pp. 1154-1162, doi:10.1093\/mnras\/sty2756<\/a>, 2020.<\/li>\n
  15. Davis, L.,\u00a0C.A. Cattell,\u00a0L.B. Wilson III<\/strong>, Z.A. Cohen, A.W. Breneman, and E.L.M. Hanson “ARTEMIS\u00a0observations of plasma waves in laminar and perturbed interplanetary shocks: shock parameters,” doi:10.5281\/zenodo.3475589<\/a>, 2019.<\/li>\n
  16. Wilson III, L.B.<\/strong>, L.-J. Chen<\/strong>, S. Wang, S.J. Schwartz<\/strong>, D.L. Turner<\/strong>, M.L. Stevens, J.C. Kasper, A. Osmane<\/strong>, D. Caprioli<\/strong>, S.D. Bale, M.P. Pulupa, C.S. Salem, and K.A. Goodrich<\/strong> “Electron energy partition across interplanetary shocks: II. Statistics,” Astrophys. J. Suppl.<\/em>\u00a0245<\/strong>(24), doi:10.3847\/1538-4365\/ab5445<\/a>, 2019b. \u00a0arXiv<\/em> eprint 1909.09050<\/a><\/li>\n
  17. Haggerty, C.C. and D. Caprioli<\/strong> “dHybridR: A Hybrid Particle-in-cell Code Including Relativistic Ion Dynamics,” Astrophys. J.<\/em> 887<\/strong>(165), pp. 13, doi:10.3847\/1538-4357\/ab58c8<\/a>, 2019.<\/li>\n
  18. Wang, R.<\/strong>, I.Y. Vasko<\/strong>, F.S. Mozer, S.D. Bale, A.V. Artemyev, J.W. Bonnell, R.E. Ergun, B. Giles, P.-A. Lindqvist, C.T. Russell, and R.J. Strangeway “Electrostatic Turbulence and Debye-scale Structures in Collisionless Shocks,” Astrophys. J. Lett.<\/em> 889<\/strong>(L9), pp. 8, doi:10.3847\/2041-8213\/ab6582<\/a>, 2020. \u00a0arXiv<\/em> eprint 1912.01770<\/a><\/li>\n
  19. Gingell, I.<\/strong>, S.J. Schwartz<\/strong>, J.P. Eastwood, J.E. Stawarz, J.L. Burch, R.E. Ergun, S.A. Fuselier, D.J. Gershman, B.L. Giles, Y.V. Khotyaintsev, B. Lavraud, P.-A. Lindqvist, W.R. Paterson, T.D. Phan, C.T. Russell, R.J. Strangeway, R.B. Torbert, and F. Wilder “Statistics of reconnecting current sheets in the transition region of Earth’s bow shock,” J. Geophys. Res.<\/em> 125<\/strong>(1), pp. e2019JA027119, doi:10.1029\/2019JA027119<\/a>, 2020.<\/li>\n
  20. Wilson III, L.B.<\/strong>, L.-J. Chen<\/strong>, S. Wang, S.J. Schwartz<\/strong>, D.L. Turner<\/strong>, M.L. Stevens, J.C. Kasper, A. Osmane<\/strong>, D. Caprioli<\/strong>, S.D. Bale, M.P. Pulupa, C.S. Salem, and K.A. Goodrich<\/strong> “Supplement to: Electron energy partition across interplanetary shocks: III. Analysis,” doi:10.5281\/zenodo.3627284<\/a>, 2020.<\/li>\n
  21. Heuer, P.V., M.S. Weidl, R.S. Dorst, D.B. Schaeffer, K. Tripathi, S. Vincena, C.G. Constantin, C. Niemann, L.B. Wilson III<\/strong>, and D. Winske “Laboratory observations of ultra-low frequency analogue waves driven by the right-hand resonant ion beam instability,” Astrophys. J. Lett.<\/em>\u00a0891<\/strong>(L11), doi:10.3847\/2041-8213\/ab75f4<\/a>, 2020.<\/li>\n
  22. Lemb\u00e9ge, B.<\/strong>, Z. Yang, and G.P. Zank “Energy Power Spectra Measured at an Interplanetary Shock by the New Horizon\u02bcs SWAP Experiment: 1D Full Particle Simulations versus Observations,” Astrophys. J.<\/em> 890<\/strong>(48), pp. 8, doi:10.3847\/1538-4357\/ab65c5<\/a>, 2020.<\/li>\n
  23. Hanson, E.L.M., O.V. Agapitov, I.Y. Vasko<\/strong>, et al., “Shock Drift Acceleration of Ions in an Interplanetary Shock Observed by MMS,” Astrophys. J. Lett.<\/em> 891<\/strong>(L26), doi:10.3847\/2041-8213\/ab7761<\/a>, 2020.<\/li>\n
  24. Wilson III, L.B.<\/strong>, L.-J. Chen<\/strong>, S. Wang, S.J. Schwartz<\/strong>, D.L. Turner<\/strong>, M.L. Stevens, J.C. Kasper, A. Osmane<\/strong>, D. Caprioli<\/strong>, S.D. Bale, M.P. Pulupa, C.S. Salem, and K.A. Goodrich<\/strong> “Electron energy partition across interplanetary shocks: III. Analysis,” Astrophys. J.<\/em>\u00a0893<\/strong>(22), pp. 21, doi:10.3847\/1538-4357\/ab7d39<\/a>, 2020. \u00a0arXiv<\/em> eprint 2001.09231<\/a><\/li>\n
  25. Liu, T.Z.<\/strong>, S. Lu, D.L. Turner<\/strong>, I. Gingell<\/strong>, V. Angelopoulos, H. Zhang, A. Artemyev, and J.L. Burch “Magnetospheric Multiscale (MMS) Observations of Magnetic Reconnection in Foreshock Transients,” J. Geophys. Res.<\/em> 125<\/strong>(4), pp. e2020JA027822, doi:10.1029\/2020JA027822<\/a>, 2020.<\/li>\n
  26. Trotta, D., L. Franci, D. Burgess<\/strong>, and P. Hellinger “Fast Acceleration of Transrelativistic Electrons in Astrophysical Turbulence,” Astrophys. J.<\/em> 894<\/strong>(136), pp. 6, doi:10.3847\/1538-4357\/ab873c<\/a>, 2020.<\/li>\n
  27. Madanian, H., S.J. Schwartz<\/strong>, J.S. Halekas,\u00a0L.B. Wilson III<\/strong>, and B.M. Jakosky “Nonstationary quasi-perpendicular shock and ion reflection observed by MAVEN,” Geophys. Res. Lett.<\/em> 47<\/strong>(11), pp. e2020GL088309, doi:10.1029\/2020GL088309<\/a>, 2020.<\/li>\n
  28. Farrugia, C.J., N. Lugaz, B.J. Vasquez, F.T. Gratton, K. Paulson, W. Yu, R.B. Torbert, and L.B. Wilson III<\/strong> “A Study of a Magnetic Cloud Propagating through Large-Amplitude Alfven Waves,” J. Geophys. Res.<\/em>\u00a0125<\/strong>(6), pp. e2019JA027638, doi:10.1029\/2019JA027638<\/a>, 2020.<\/li>\n
  29. Vasko, I.Y.<\/strong>, R. Wang<\/strong>, F.S. Mozer, S.D. Bale, and A.V. Artemyev “On the nature and origin of bipolar electrostatic structures in the Earth\u2019s bow shock,” Frontiers in Physics<\/em>\u00a08<\/strong>(156), pp. 13, doi:10.3389\/fphy.2020.00156<\/a>, 2020.<\/li>\n
  30. Turner, D.L.<\/strong>, T.Z. Liu<\/strong>, L.B. Wilson III<\/strong>, D.J. Gershman, J.F. Fennell, J.B. Blake, S.-H. Lee, N. Omidi, and J.L. Burch “Multipoint characterization of foreshock bubbles with Magnetospheric Multiscale (MMS),” J.\u00a0Geophys. Res.<\/em>\u00a0125<\/strong>(7), pp. e2019JA027707, doi:10.1029\/2019JA027707<\/a>, 2020.<\/li>\n
  31. Chen, L.-J.<\/strong>, S. Wang, O. Le Contel, A. Rager, M. Hesse, J. Drake, J. Dorelli, J. Ng, N. Bessho, D. Graham, L.B. Wilson III<\/strong>, et al.<\/em>, “Nonlinear lower-hybrid waves driving electron heating and vortical flows in a reconnection layer,” Phys. Rev. Lett.<\/em>\u00a0125<\/strong>(2), pp. 025103, doi:10.1103\/PhysRevLett.125.025103<\/a>, 2020.<\/li>\n
  32. Liu, T.Z.<\/strong>, H. Hietala, V. Angelopoulos, Y. Omelchenko, R. Vainio, and F. Plaschke “Statistical study of magnetosheath jet\u2010driven bow waves,” J. Geophys. Res.<\/em>\u00a0125<\/strong>(7), pp. e2019JA027710, doi:10.1029\/2019JA027710<\/a>, 2020.<\/li>\n
  33. Liu, T.Z.<\/strong>, H. Hietala, V. Angelopoulos, R. Vainio, and Y. Omelchenko\u00a0“Electron acceleration by magnetosheath jet-driven bow waves,” J. Geophys. Res.<\/em>\u00a0125<\/strong>(7), pp. e2019JA027709, doi:10.1029\/2019JA027709<\/a>, 2020.<\/li>\n
  34. Wang, S., L.-J. Chen<\/strong>, N. Bessho, M. Hesse, L.B. Wilson III<\/strong>, R. Denton, J. Ng, B.L. Giles, R.B. Torbert, and J.L. Burch “Ion-scale current structures in short large-amplitude magnetic structures,” Astrophys. J.<\/em>\u00a0898<\/strong>(121), pp. 13, doi:10.3847\/1538-4357\/ab9b8b<\/a>, 2020. \u00a0arXiv<\/em> eprint 2004.10714<\/a><\/li>\n
  35. Shi, X., T.Z. Liu<\/strong>, V. Angelopoulos, and X.-J. Zhang “Whistler Mode Waves in the Compressional Boundary of Foreshock Transients,”\u00a0J. Geophys. Res.<\/em>\u00a0125<\/strong>(8), pp. e2019JA027758, doi:10.1029\/2019JA027758<\/a>, 2020.<\/li>\n
  36. Vasko, I.Y.<\/strong>, I.V. Kuzichev, A.V. Artemyev, S.D. Bale, J.W. Bonnell, and F.S. Mozer “On quasi-parallel whistler waves in the solar wind,” Phys. Plasmas<\/em> 27<\/strong>(8), pp. 082902, doi:10.1063\/5.0003401<\/a>, 2020.<\/li>\n
  37. Bessho, N., L.-J. Chen<\/strong>, J. Ng, S. Wang, M. Hesse, and L.B. Wilson III<\/strong> “Magnetic reconnection and kinetic waves generated in the Earth\u2019s quasi-parallel bow shock,” Physics of Plasmas<\/em>\u00a027<\/strong>(9), pp. 092901, doi:10.1063\/5.0012443<\/a>, 2020.<\/li>\n
  38. A. Lotekar, \u00a0I.Y. Vasko<\/b>, F.S. Mozer, I. Hutchinson, A.V. Artemyev, S.D. Bale, J.W. Bonnell, R.E. Ergun, B. Giles, Yu.V. Khotyaintsev, P.\u2010A. Lindqvist, C.T. Russell, R. Strangeway, “Multi\u2010satellite MMS analysis of electron holes in the Earth\u2019s magnetotail: origin, properties, velocity gap and transverse instability,” J. Geophys. Res.<\/em>\u00a0125<\/strong>(9), pp. e2020JA028066, doi:10.1029\/2020JA028066<\/a>, 2020.<\/li>\n
  39. Yang, Z., Y.D. Liu, A. Johlander<\/strong>, G.K. Parks, B. Lavraud, E. Lee, W. Baumjohann, R. Wang, and J.L. Burch “MMS Direct Observations of Kinetic-scale Shock Self-reformation,” Astrophys. J. Lett.<\/em> 901<\/strong>(L6), pp. 6, doi:10.3847\/2041-8213\/abb3ff<\/a>, 2020.<\/li>\n
  40. An, X., T.Z. Liu<\/strong>, J. Bortnik, A. Osmane<\/strong>, and V. Angelopoulos “Formation of Foreshock Transients and Associated Secondary Shocks,” Astrophys. J.<\/em> 901<\/strong>(73), pp. 16, doi:10.3847\/1538-4357\/abaf03<\/a>, 2020.<\/li>\n
  41. Liu, T.Z.<\/strong>, X. An, H. Zhang, and D.L. Turner<\/strong> “Magnetospheric Multiscale Observations of Foreshock Transients at Their Very Early Stage,”\u00a0Astrophys. J.<\/em>\u00a0902<\/strong>(5), pp. 15, doi:10.3847\/1538-4357\/abb249<\/a>, 2020.<\/li>\n
  42. Cohen, Z.A., C.A. Cattell, A.W. Breneman, L. Davis, P. Grul, K. Kersten, L.B. Wilson III<\/strong>, and J.R. Wygant “The rapid variability of electric field waves within and near interplanetary shock ramps: STEREO Observations,” Astrophys. J.<\/em>\u00a0904<\/strong>(174), pp. 14, doi:10.3847\/1538-4357\/abbeec<\/a>, 2020.\u00a0arXiv<\/em> eprint 1909.08176<\/a><\/li>\n
  43. Haggerty, C.C., and D. Caprioli<\/strong> “Kinetic Simulations of Cosmic-ray-modified Shocks I: Hydrodynamics,” Astrophys. J.<\/em> 905<\/strong>(1), pp. 12, doi:10.3847\/1538-4357\/abbe06<\/a>, 2020.\u00a0arXiv<\/em> eprint 2008.12308<\/a><\/li>\n
  44. Caprioli, D.<\/strong>, C.C. Haggerty, and P. Blasi “Kinetic Simulations of Cosmic-ray-modified Shocks II: Particle Spectra,”\u00a0Astrophys. J.<\/em> 905<\/strong>(2), pp. 8, doi:10.3847\/1538-4357\/abbe05<\/a>, 2020.\u00a0arXiv<\/em> eprint 2009.00007<\/a><\/li>\n
  45. Wilson III, L.B.<\/strong>, L.-J. Chen<\/strong>, and V. Roytershteyn “The discrepancy between simulation and observation of electric fields in collisionless shocks (invited),” Frontiers in Astronomy and Space Sciences<\/em>\u00a07<\/strong>(592634), pp. 14, doi:10.3389\/fspas.2020.592634<\/a>, 2021.<\/li>\n
  46. Liu, T.Z.<\/strong>, Y. Hao, L.B. Wilson III<\/strong>, D.L. Turner<\/strong>, and H. Zhang “MMS observations of Earth’s oblique bow shock reformation by foreshock ULF waves,” Geophys. Res. Lett.<\/em>\u00a048<\/strong>(2), pp. e2020GL091184, doi:10.1029\/2020GL091184<\/a>, 2021.<\/li>\n
  47. Madanian, H., M.I. Desai, S.J. Schwartz<\/strong>, L.B. Wilson III<\/strong>, S.A. Fuselier, J.L. Burch, O. Le Contel, D.L. Turner<\/strong>, K. Ogasawara, A.L. Brosius, C.T. Russell, R.E. Ergun, N. Ahmadi, D.J. Gershman, and P.-A. Lindqvist, “The Dynamics of a High Mach Number Quasi-Perpendicular Shock: MMS Observations,” Astrophys. J.<\/em>\u00a0908<\/strong>(40), pp. 11, doi:10.3847\/1538-4357\/abcb88<\/a>, 2020.<\/li>\n
  48. Turner, D.L.<\/strong>, L.B. Wilson III<\/strong>, K. Goodrich<\/strong>, H. Madanian, T.Z. Liu<\/strong>, A. Johlander<\/strong>, D. Caprioli<\/strong>, H. Hietala, D.J. Gershman, A.K. Higginson, I.J. Cohen, J.H. Westlake, J.L. Burch, and S.J. Schwartz<\/strong> “Direct Multipoint Observations Capturing the Formation of a Supercritical Fast Magnetosonic Shock,” Astrophys. J. Lett.<\/em>\u00a0911<\/strong>(L31), pp. 11, doi:10.3847\/2041-8213\/abec78<\/a>, 2021.<\/li>\n
  49. Ofman, L., A. Koval, L.B. Wilson III<\/strong>, and A. Szabo “Oblique High Mach Number Heliospheric Shocks: the Role of \u03b1\u00a0Particles,” J. Geophys. Res.<\/em>\u00a0126<\/strong>(5), pp. e2020JA028962, doi:10.1029\/2020JA028962<\/a>, 2021.<\/li>\n
  50. Blum, L.W., A. Koval, I.G. Richardson,\u00a0L.B. Wilson III<\/strong>, D.M. Malaspina, A. Greeley, and A.N. Jaynes “Prompt Response of the Dayside Magnetosphere to Discrete Structures Within the Sheath Region of a Coronal Mass Ejection,” Geophys. Res. Lett.<\/em> 48<\/strong>(11), pp. e2021GL092700, doi:10.1029\/2021GL092700<\/a>, 2021.<\/li>\n
  51. Davis, L., C.A. Cattell,\u00a0L.B. Wilson III<\/strong>, Z.A. Cohen, A.W. Breneman, and E.L.M. Hanson “ARTEMIS Observations of Plasma Waves in Laminar and Perturbed Interplanetary Shocks,” Astrophys. J.<\/em>\u00a0913<\/strong>(144), pp. 18, doi:10.3847\/1538-4357\/abf56a<\/a>, 2021.<\/li>\n
  52. Starkey, M.J., S.A. Fuselier, M.I. Desai, S.J. Schwartz<\/strong>, C.T. Russell, H. Wei, H. Madanian, J. Mukherjee, and L.B. Wilson III<\/strong> “MMS observations of energized He+<\/sup> pickup ions at quasi-perpendicular shocks,”\u00a0Astrophys. J.<\/em>\u00a0913<\/strong>(112), pp. 13, doi:10.3847\/1538-4357\/abf4d9<\/a>, 2021.<\/li>\n
  53. Johlander, A.<\/strong>, M. Battarbee, A. Vaivads, L. Turc, Y. Pfau-Kempf, U. Ganse, M. Grandin, M. Dubart, Yu. V. Khotyaintsev, D. Caprioli<\/strong>, C. Haggerty, S.J. Schwartz<\/strong>, B.L. Giles, and M. Palmroth “Ion Acceleration Efficiency at the Earth\u2019s Bow Shock: Observations and Simulation Results,” Astrophys. J.<\/em> 914<\/strong>(82), pp. 11, doi:10.3847\/1538-4357\/abfafc<\/a>, 2021.<\/li>\n
  54. Juno, J., G.G. Howes, J.M. TenBarge, L.B. Wilson III<\/strong>, et al.<\/em>, “A Field-Particle Correlation Analysis of a Perpendicular Magnetized Collisionless Shock,”\u00a0J. Plasma Phys.<\/em>\u00a087<\/strong>(3),\u00a0pp. 905870316, doi:10.1017\/S0022377821000623<\/a>, 2021.<\/li>\n
  55. Wang, R.<\/strong>, I.Y. Vasko<\/strong>, F.S. Mozer, S.D. Bale, I.V. Kuzichev, A.V. Artemyev, K. Steinvall, R.E. Ergun, B. Giles, Y. Khotyaintsev, P.-A. Lindqvist, C.T. Russell, and R. Strangeway “Electrostatic solitary waves in the Earth\u2019s bow shock: nature, properties, lifetimes and origin,” J. Geophys. Res.<\/em>\u00a0126<\/strong>(7), pp. e2021JA029357, doi:10.1029\/2021JA029357<\/a>, 2021.<\/li>\n
  56. Schwartz, S.J.<\/strong>, R.E. Ergun, H. Kucharek, L.B. Wilson III<\/strong>, L.-J. Chen<\/strong>, K.A. Goodrich<\/strong>, D.L. Turner<\/strong>, I. Gingell<\/strong>, H. Madanian, D.J. Gershman, and R. Strangeway “Evaluating the de Hoffmann-Teller cross-shock potential at real collisionless shocks,” J. Geophys. Res.<\/em>\u00a0126<\/strong>(8), pp. e2021JA029295, doi:10.1029\/2021JA029295<\/a>, 2021.<\/li>\n
  57. Page, B., I.Y. Vasko<\/strong>, A.V. Artemyev, and S.D. Bale “Generation of High-frequency Whistler Waves in the Earth\u2019s Quasi-perpendicular Bow Shock,” Astrophys. J. Lett.<\/em> 919<\/strong>(L17), pp. 7, doi:10.3847\/2041-8213\/ac2748<\/a>, 2021.<\/li>\n
  58. Gingell, I.<\/strong>, S.J. Schwartz<\/strong>, H. Kucharek, C.J. Farrugia, K.J. Trattner “Observing the prevalence of thin current sheets downstream of Earth’s bow shock,” Phys. Plasmas<\/em> 28<\/strong>(10), pp. 102902, doi:10.1063\/5.0062520<\/a>, 2021.<\/li>\n
  59. Liu, T.Z.<\/strong>, H. Zhang, D.L. Turner<\/strong>, K.A. Goodrich<\/strong>, X. An, and X. Zhang “Kinetic-Scale Magnetic Holes Inside Foreshock Transients,” J. Geophys. Res.<\/em> 126<\/strong>(10), pp. e2021JA029748, doi:10.1029\/2021JA029748<\/a>, 2021.<\/li>\n
  60. Kamaletdinov, S.R., I.H. Hutchinson, I.Y. Vasko<\/strong>, A.V. Artemyev, A. Lotekar, and F. Mozer “Spacecraft Observations and Theoretical Understanding of Slow Electron Holes,” Phys. Rev. Lett.<\/em> 127<\/strong>(16), pp. 165101, doi:10.1103\/PhysRevLett.127.165101<\/a>, 2021.<\/li>\n
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    Turner, D.L., L.B. Wilson III, T.Z. Liu, I.J. Cohen, S.J. Schwartz, A. Osmane, et al., “Autogenous and efficient acceleration of energetic ions upstream of Earth’s bow shock,” Nature 561(7722), pp. 206\u2013210, doi:10.1038\/s41586-018-0472-9, 2018. Goodrich, K.A., R.E. Ergun, S.J. Schwartz, L.B. … Continue reading →<\/span><\/a><\/p>\n","protected":false},"author":2,"featured_media":10,"parent":7,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-18","page","type-page","status-publish","has-post-thumbnail","hentry"],"_links":{"self":[{"href":"https:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/wp-json\/wp\/v2\/pages\/18","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/wp-json\/wp\/v2\/users\/2"}],"replies":[{"embeddable":true,"href":"https:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/wp-json\/wp\/v2\/comments?post=18"}],"version-history":[{"count":0,"href":"https:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/wp-json\/wp\/v2\/pages\/18\/revisions"}],"up":[{"embeddable":true,"href":"https:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/wp-json\/wp\/v2\/pages\/7"}],"wp:featuredmedia":[{"embeddable":true,"href":"https:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/wp-json\/wp\/v2\/media\/10"}],"wp:attachment":[{"href":"https:\/\/www.issibern.ch\/teams\/collisionlesshockwave\/wp-json\/wp\/v2\/media?parent=18"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}