List of Publications

1. 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. 206–210, doi:10.1038/s41586-018-0472-9, 2018.
2. Goodrich, K.A., R.E. Ergun, S.J. Schwartz, L.B. Wilson III, et al., “MMS Observations of Electrostatic Waves in an Oblique Shock Crossing,” J. Geophys. Res. 123(11), pp. 9430–9442, doi:10.1029/2018JA025830, 2018.
3. Wang, S., L.-J. Chen, N. Bessho, M. Hesse, L.B. Wilson III, 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. 46(2), pp 562–570, doi:10.1029/2018GL080944, 2019.
4. Goodrich, K.A., R.E. Ergun, S.J. Schwartz, L.B. Wilson III, A. Johlander, et al. “Impulsively Reflected Ions: A Plausible Mechanism for Ion Acoustic Wave Growth in Collisionless Shocks,” J. Geophys. Res. 124(3), pp. 1855–1865, doi:10.1029/2018JA026436, 2019.
5. Gingell, I., S.J. Schwartz, et al., “Observations of Magnetic Reconnection in the Transition Region of Quasi-Parallel Shocks,” Geophys. Res. Lett. 46(3), pp. 1177-1184, doi:10.1029/2018GL081804, 2019.
6. Ofman, L., A. Koval, L.B. Wilson III, and A. Szabo “Understanding the Role of α Particles in Oblique Heliospheric Shock Oscillations,” J. Geophys. Res. 124(4), pp. 2393–2405, doi:10.1029/2018JA026301 2019.
7. Wilson III, L.B., L.-J. Chen, S. Wang, S.J. Schwartz, D.L. Turner, M.L. Stevens, J.C. Kasper, A. Osmane, D. Caprioli, S.D. Bale, M.P. Pulupa, C.S. Salem, and K.A. Goodrich “Supplement to: Electron energy partition across interplanetary shocks,” doi:10.5281/zenodo.2875806, 2019.
8. Wilson III, L.B., L.-J. Chen, S. Wang, S.J. Schwartz, D.L. Turner, M.L. Stevens, J.C. Kasper, A. Osmane, D. Caprioli, S.D. Bale, M.P. Pulupa, C.S. Salem, and K.A. Goodrich “Electron energy partition across interplanetary shocks: I. Methodology and Data Product,” Astrophys. J. Suppl. 243(8), doi:10.3847/1538-4365/ab22bd, 2019a. arXiv eprint 1902.01476
9. Cohen, I.J., S.J. Schwartz, K.A. Goodrich, et al., “High-resolution measurements of the cross-shock potential, ion reflection, and electron heating at an interplanetary shock by MMS,” J. Geophys. Res. 124(6), pp. 3961–3978, doi:10.1029/2018JA026197, 2019.
10. Liu, T.Z., et al., “Relativistic electrons generated at Earth’s quasi-parallel bow shock,” Sci. Adv. 5(7), pp. 5, doi:10.1126/sciadv.aaw1368, 2019.
11. Liu, T.Z., et al., “THEMIS Observations of Particle Acceleration by a Magnetosheath Jet-Driven Bow Wave,” Geophys. Res. Lett. 46(14), pp. 7929-7936, doi:10.1029/2019GL082614, 2019.
12. Bessho, N., L.-J. Chen, S. Wang, L.B. Wilson III, and M. Hesse “Fully kinetic simulations of magnetic reconnection in the Earth’s quasi-parallel bow shock,” Geophys. Res. Lett. 46(16), pp. 9352-9361, doi:10.1029/2019GL083397, 2019.
13. Oka, M., F. Otsuka, S. Matsukiyo, L.B. Wilson III, T.D. Phan, T. Amano, M. Hoshino, 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. 886(53), pp. 11, doi:10.3847/1538-4357/ab4a81, 2019.
14. Trotta, D., and D. Burgess “Electron acceleration at quasi-perpendicular shocks in sub- and supercritical regimes: 2D and 3D simulations,” Mon. Not. Roy. Astron. Soc. 482, pp. 1154-1162, doi:10.1093/mnras/sty2756, 2020.
15. Davis, L., C.A. Cattell, L.B. Wilson III, Z.A. Cohen, A.W. Breneman, and E.L.M. Hanson “ARTEMIS observations of plasma waves in laminar and perturbed interplanetary shocks: shock parameters,” doi:10.5281/zenodo.3475589, 2019.
16. Wilson III, L.B., L.-J. Chen, S. Wang, S.J. Schwartz, D.L. Turner, M.L. Stevens, J.C. Kasper, A. Osmane, D. Caprioli, S.D. Bale, M.P. Pulupa, C.S. Salem, and K.A. Goodrich “Electron energy partition across interplanetary shocks: II. Statistics,” Astrophys. J. Suppl. 245(24), doi:10.3847/1538-4365/ab5445, 2019b.  arXiv eprint 1909.09050
17. Haggerty, C.C. and D. Caprioli “dHybridR: A Hybrid Particle-in-cell Code Including Relativistic Ion Dynamics,” Astrophys. J. 887(165), pp. 13, doi:10.3847/1538-4357/ab58c8, 2019.
18. Wang, R., I.Y. Vasko, 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. 889(L9), pp. 8, doi:10.3847/2041-8213/ab6582, 2020.  arXiv eprint 1912.01770
19. Gingell, I., S.J. Schwartz, 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. 125(1), pp. e2019JA027119, doi:10.1029/2019JA027119, 2020.
20. Wilson III, L.B., L.-J. Chen, S. Wang, S.J. Schwartz, D.L. Turner, M.L. Stevens, J.C. Kasper, A. Osmane, D. Caprioli, S.D. Bale, M.P. Pulupa, C.S. Salem, and K.A. Goodrich “Supplement to: Electron energy partition across interplanetary shocks: III. Analysis,” doi:10.5281/zenodo.3627284, 2020.
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, and D. Winske “Laboratory observations of ultra-low frequency analogue waves driven by the right-hand resonant ion beam instability,” Astrophys. J. Lett. 891(L11), doi:10.3847/2041-8213/ab75f4, 2020.
22. Lembége, B., Z. Yang, and G.P. Zank “Energy Power Spectra Measured at an Interplanetary Shock by the New Horizonʼs SWAP Experiment: 1D Full Particle Simulations versus Observations,” Astrophys. J. 890(48), pp. 8, doi:10.3847/1538-4357/ab65c5, 2020.
23. Hanson, E.L.M., O.V. Agapitov, I.Y. Vasko, et al., “Shock Drift Acceleration of Ions in an Interplanetary Shock Observed by MMS,” Astrophys. J. Lett. 891(L26), doi:10.3847/2041-8213/ab7761, 2020.
24. Wilson III, L.B., L.-J. Chen, S. Wang, S.J. Schwartz, D.L. Turner, M.L. Stevens, J.C. Kasper, A. Osmane, D. Caprioli, S.D. Bale, M.P. Pulupa, C.S. Salem, and K.A. Goodrich “Electron energy partition across interplanetary shocks: III. Analysis,” Astrophys. J. 893(22), pp. 21, doi:10.3847/1538-4357/ab7d39, 2020.  arXiv eprint 2001.09231
25. Liu, T.Z., S. Lu, D.L. Turner, I. Gingell, V. Angelopoulos, H. Zhang, A. Artemyev, and J.L. Burch “Magnetospheric Multiscale (MMS) Observations of Magnetic Reconnection in Foreshock Transients,” J. Geophys. Res. 125(4), pp. e2020JA027822, doi:10.1029/2020JA027822, 2020.
26. Trotta, D., L. Franci, D. Burgess, and P. Hellinger “Fast Acceleration of Transrelativistic Electrons in Astrophysical Turbulence,” Astrophys. J. 894(136), pp. 6, doi:10.3847/1538-4357/ab873c, 2020.
27. Madanian, H., S.J. Schwartz, J.S. Halekas, L.B. Wilson III, and B.M. Jakosky “Nonstationary quasi-perpendicular shock and ion reflection observed by MAVEN,” Geophys. Res. Lett. 47(11), pp. e2020GL088309, doi:10.1029/2020GL088309, 2020.
28. Farrugia, C.J., N. Lugaz, B.J. Vasquez, F.T. Gratton, K. Paulson, W. Yu, R.B. Torbert, and L.B. Wilson III “A Study of a Magnetic Cloud Propagating through Large-Amplitude Alfven Waves,” J. Geophys. Res. 125(6), pp. e2019JA027638, doi:10.1029/2019JA027638, 2020.
29. Vasko, I.Y., R. Wang, F.S. Mozer, S.D. Bale, and A.V. Artemyev “On the nature and origin of bipolar electrostatic structures in the Earth’s bow shock,” Frontiers in Physics 8(156), pp. 13, doi:10.3389/fphy.2020.00156, 2020.
30. Turner, D.L., T.Z. Liu, L.B. Wilson III, 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. Geophys. Res. 125(7), pp. e2019JA027707, doi:10.1029/2019JA027707, 2020.
31. Chen, L.-J., S. Wang, O. Le Contel, A. Rager, M. Hesse, J. Drake, J. Dorelli, J. Ng, N. Bessho, D. Graham, L.B. Wilson III, et al., “Nonlinear lower-hybrid waves driving electron heating and vortical flows in a reconnection layer,” Phys. Rev. Lett. 125(2), pp. 025103, doi:10.1103/PhysRevLett.125.025103, 2020.
32. Liu, T.Z., H. Hietala, V. Angelopoulos, Y. Omelchenko, R. Vainio, and F. Plaschke “Statistical study of magnetosheath jet‐driven bow waves,” J. Geophys. Res. 125(7), pp. e2019JA027710, doi:10.1029/2019JA027710, 2020.
33. Liu, T.Z., H. Hietala, V. Angelopoulos, R. Vainio, and Y. Omelchenko “Electron acceleration by magnetosheath jet-driven bow waves,” J. Geophys. Res. 125(7), pp. e2019JA027709, doi:10.1029/2019JA027709, 2020.
34. Wang, S., L.-J. Chen, N. Bessho, M. Hesse, L.B. Wilson III, 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. 898(121), pp. 13, doi:10.3847/1538-4357/ab9b8b, 2020.  arXiv eprint 2004.10714
35. Shi, X., T.Z. Liu, V. Angelopoulos, and X.-J. Zhang “Whistler Mode Waves in the Compressional Boundary of Foreshock Transients,” J. Geophys. Res. 125(8), pp. e2019JA027758, doi:10.1029/2019JA027758, 2020.
36. Vasko, I.Y., 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 27(8), pp. 082902, doi:10.1063/5.0003401, 2020.
37. Bessho, N., L.-J. Chen, J. Ng, S. Wang, M. Hesse, and L.B. Wilson III “Magnetic reconnection and kinetic waves generated in the Earth’s quasi-parallel bow shock,” Physics of Plasmas 27(9), pp. 092901, doi:10.1063/5.0012443, 2020.
38. A. Lotekar,  I.Y. Vasko, F.S. Mozer, I. Hutchinson, A.V. Artemyev, S.D. Bale, J.W. Bonnell, R.E. Ergun, B. Giles, Yu.V. Khotyaintsev, P.‐A. Lindqvist, C.T. Russell, R. Strangeway, “Multi‐satellite MMS analysis of electron holes in the Earth’s magnetotail: origin, properties, velocity gap and transverse instability,” J. Geophys. Res. 125(9), pp. e2020JA028066, doi:10.1029/2020JA028066, 2020.
39. Yang, Z., Y.D. Liu, A. Johlander, 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. 901(L6), pp. 6, doi:10.3847/2041-8213/abb3ff, 2020.
40. An, X., T.Z. Liu, J. Bortnik, A. Osmane, and V. Angelopoulos “Formation of Foreshock Transients and Associated Secondary Shocks,” Astrophys. J. 901(73), pp. 16, doi:10.3847/1538-4357/abaf03, 2020.
41. Liu, T.Z., X. An, H. Zhang, and D.L. Turner “Magnetospheric Multiscale Observations of Foreshock Transients at Their Very Early Stage,” Astrophys. J. 902(5), pp. 15, doi:10.3847/1538-4357/abb249, 2020.
42. Cohen, Z.A., C.A. Cattell, A.W. Breneman, L. Davis, P. Grul, K. Kersten, L.B. Wilson III, and J.R. Wygant “The rapid variability of electric field waves within and near interplanetary shock ramps: STEREO Observations,” Astrophys. J. 904(174), pp. 14, doi:10.3847/1538-4357/abbeec, 2020. arXiv eprint 1909.08176
43. Haggerty, C.C., and D. Caprioli “Kinetic Simulations of Cosmic-ray-modified Shocks I: Hydrodynamics,” Astrophys. J. 905(1), pp. 12, doi:10.3847/1538-4357/abbe06, 2020. arXiv eprint 2008.12308
44. Caprioli, D., C.C. Haggerty, and P. Blasi “Kinetic Simulations of Cosmic-ray-modified Shocks II: Particle Spectra,” Astrophys. J. 905(2), pp. 8, doi:10.3847/1538-4357/abbe05, 2020. arXiv eprint 2009.00007
45. Wilson III, L.B., L.-J. Chen, and V. Roytershteyn “The discrepancy between simulation and observation of electric fields in collisionless shocks (invited),” Frontiers in Astronomy and Space Sciences 7(592634), pp. 14, doi:10.3389/fspas.2020.592634, 2021.
46. Liu, T.Z., Y. Hao, L.B. Wilson III, D.L. Turner, and H. Zhang “MMS observations of Earth’s oblique bow shock reformation by foreshock ULF waves,” Geophys. Res. Lett. 48(2), pp. e2020GL091184, doi:10.1029/2020GL091184, 2021.
47. Madanian, H., M.I. Desai, S.J. Schwartz, L.B. Wilson III, S.A. Fuselier, J.L. Burch, O. Le Contel, D.L. Turner, 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. 908(40), pp. 11, doi:10.3847/1538-4357/abcb88, 2020.
48. Turner, D.L., L.B. Wilson III, K. Goodrich, H. Madanian, T.Z. Liu, A. Johlander, D. Caprioli, H. Hietala, D.J. Gershman, A.K. Higginson, I.J. Cohen, J.H. Westlake, J.L. Burch, and S.J. Schwartz “Direct Multipoint Observations Capturing the Formation of a Supercritical Fast Magnetosonic Shock,” Astrophys. J. Lett. 911(L31), pp. 11, doi:10.3847/2041-8213/abec78, 2021.
49. Ofman, L., A. Koval, L.B. Wilson III, and A. Szabo “Oblique High Mach Number Heliospheric Shocks: the Role of α Particles,” J. Geophys. Res. 126(5), pp. e2020JA028962, doi:10.1029/2020JA028962, 2021.
50. Blum, L.W., A. Koval, I.G. Richardson, L.B. Wilson III, 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. 48(11), pp. e2021GL092700, doi:10.1029/2021GL092700, 2021.
51. Davis, L., C.A. Cattell, L.B. Wilson III, Z.A. Cohen, A.W. Breneman, and E.L.M. Hanson “ARTEMIS Observations of Plasma Waves in Laminar and Perturbed Interplanetary Shocks,” Astrophys. J. 913(144), pp. 18, doi:10.3847/1538-4357/abf56a, 2021.
52. Starkey, M.J., S.A. Fuselier, M.I. Desai, S.J. Schwartz, C.T. Russell, H. Wei, H. Madanian, J. Mukherjee, and L.B. Wilson III “MMS observations of energized He⁺ pickup ions at quasi-perpendicular shocks,” Astrophys. J. 913(112), pp. 13, doi:10.3847/1538-4357/abf4d9, 2021.
53. Johlander, A., M. Battarbee, A. Vaivads, L. Turc, Y. Pfau-Kempf, U. Ganse, M. Grandin, M. Dubart, Yu. V. Khotyaintsev, D. Caprioli, C. Haggerty, S.J. Schwartz, B.L. Giles, and M. Palmroth “Ion Acceleration Efficiency at the Earth’s Bow Shock: Observations and Simulation Results,” Astrophys. J. 914(82), pp. 11, doi:10.3847/1538-4357/abfafc, 2021.
54. Juno, J., G.G. Howes, J.M. TenBarge, L.B. Wilson III, et al., “A Field-Particle Correlation Analysis of a Perpendicular Magnetized Collisionless Shock,” J. Plasma Phys. 87(3), pp. 905870316, doi:10.1017/S0022377821000623, 2021.
55. Wang, R., I.Y. Vasko, 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’s bow shock: nature, properties, lifetimes and origin,” J. Geophys. Res. 126(7), pp. e2021JA029357, doi:10.1029/2021JA029357, 2021.
56. Schwartz, S.J., R.E. Ergun, H. Kucharek, L.B. Wilson III, L.-J. Chen, K.A. Goodrich, D.L. Turner, I. Gingell, H. Madanian, D.J. Gershman, and R. Strangeway “Evaluating the de Hoffmann-Teller cross-shock potential at real collisionless shocks,” J. Geophys. Res. 126(8), pp. e2021JA029295, doi:10.1029/2021JA029295, 2021.
57. Page, B., I.Y. Vasko, A.V. Artemyev, and S.D. Bale “Generation of High-frequency Whistler Waves in the Earth’s Quasi-perpendicular Bow Shock,” Astrophys. J. Lett. 919(L17), pp. 7, doi:10.3847/2041-8213/ac2748, 2021.
58. Gingell, I., S.J. Schwartz, H. Kucharek, C.J. Farrugia, K.J. Trattner “Observing the prevalence of thin current sheets downstream of Earth’s bow shock,” Phys. Plasmas 28(10), pp. 102902, doi:10.1063/5.0062520, 2021.
59. Liu, T.Z., H. Zhang, D.L. Turner, K.A. Goodrich, X. An, and X. Zhang “Kinetic-Scale Magnetic Holes Inside Foreshock Transients,” J. Geophys. Res. 126(10), pp. e2021JA029748, doi:10.1029/2021JA029748, 2021.
60. Kamaletdinov, S.R., I.H. Hutchinson, I.Y. Vasko, A.V. Artemyev, A. Lotekar, and F. Mozer “Spacecraft Observations and Theoretical Understanding of Slow Electron Holes,” Phys. Rev. Lett. 127(16), pp. 165101, doi:10.1103/PhysRevLett.127.165101, 2021.
61. Lario, D., I.G. Richardson, E. Palmerio, N. Lugaz, S.D. Bale, M.L. Stevens, C.M.S. Cohen, J. Giacalone, D.G. Mitchell, A. Szabo, T. Nieves-Chinchilla, L.B. Wilson III, E.R. Christian, M.E. Hill, D.J. McComas, R.L. McNutt Jr., N.A. Schwadron, and M.E. Wiedenbeck “Comparative Analysis of the 2020 November 29 Solar Energetic Particle Event Observed by Parker Solar Probe,” Astrophys. J. 920(2), pp. 16, doi:10.3847/1538-4357/ac157f, 2021.
62. Lario, D., I.G. Richardson, L.B. Wilson III, L. Berger, L.K. Jian, and D. Trotta “The Extended Field-aligned Suprathermal Proton Beam and Long-lasting Trapped Energetic Particle Population Observed Upstream of a Transient Interplanetary Shock,” Astrophys. J. 925(198), pp. 16, 10.3847/1538-4357/ac3c47, 2022.
63. Bessho, N., L.-J. Chen, J.E. Stawarz, S. Wang, M. Hesse, L.B. Wilson III, and J. Ng “Strong reconnection electric fields in shock-driven turbulence,” Phys. Plasmas 29(4), pp. 042304, 10.1063/5.0077529, 2022.
64. Wang, R., I.Y. Vasko, A.V. Artemyev, L.C. Holley, S.R. Kamaletdinov, A. Lotekar, and F.S. Mozer “Multisatellite observations of ion holes in the Earth’s plasma sheet,” Geophys. Res. Lett. 49(8), pp. e2022GL097919, 10.1029/2022GL097919, 2022.
65. Bessho, N., L.-J. Chen, J.E. Stawarz, S. Wang, M. Hesse, L.B. Wilson III, and J. Ng “Strong reconnection electric fields in shock-driven turbulence,” Phys. Plasmas 29(4), pp. 042304, 10.1063/5.0077529, 2022.
66. Winske, D. and L.B. Wilson III, “Linear Theory of Electromagnetic Ion Beam Instabilities in the Earth’s Foreshock:  Peter Gary’s Contributions (1981–1991),” Front. Astron. Space Sci. 9(899642), pp. 26, 10.3389/fspas.2022.899642, 2022.
67. Howes, G.G., J.L. Verniero, D.E. Larson, S.D. Bale, J.C. Kasper, K. Goetz, K.G. Klein, P.L. Whittlesey, R. Livi, A. Rahmati, C.H.K. Chen, L.B. Wilson III, B.L. Alterman, and R. T. Wicks “Revolutionizing our Understanding of Particle Energization in Space Plasmas Using On-Board Wave-Particle Correlator Instrumentation,” Front. Astron. Space Sci. 9, pp. 912868, 10.3389/fspas.2022.912868, 2022.
68. Vasko, I.Y., F.S. Mozer, S.D. Bale, and A.V. Artemyev “Ion-acoustic waves in a quasi-perpendicular Earth’s bow shock,” Geophys. Res. Lett. 49(11), pp. e2022GL098640, 10.1029/2022GL098640, 2022.
69. Kamaletdinov, S.R., I.Y. Vasko, A.V. Artemyev, R. Wang, and F.S. Mozer “Quantifying electron scattering by electrostatic solitary waves in the Earth’s bow shock,” Phys. Plasmas 29(8), pp. 082301, doi:10.1063/5.0097611, 2022.
70. Liu, T.Z., H. Zhang, D.L. Turner, A. Vu, and V. Angelopoulos “Statistical Study of Favorable Foreshock Ion Properties for the Formation of Hot Flow Anomalies and Foreshock Bubbles,” J. Geophys. Res. 127(8), pp. e2022JA030273, doi:10.1029/2022JA030273, 2022.
71. Amano, T., Y. Matsumoto, A. Bohdan, O. Kobzar, S. Matsukiyo, M. Oka, J. Niemiec, M. Pohl, and M. Hoshino “Nonthermal electron acceleration at collisionless quasi‐perpendicular shocks,” Rev. Modern Plasma Phys. 6(29), pp. 63, doi:10.1007/s41614-022-00093-1, 2022.
72. Schwartz, S.J., K.A. Goodrich, L.B. Wilson III, D.L. Turner, K.J. Trattner, H. Kucharek, I. Gingell, S.A. Fuselier, I.J. Cohen, H. Madanian, R.E. Ergun, D.J. Gershman, and R.J. Strangeway “Energy partition at collisionless supercritical quasiperpendicular shocks,” J. Geophys. Res., doi:10.1029/2022JA030637, Accepted on Sep. 13, 2022.
73. Liu, M., Z. Yang, Y.D. Liu, B. Lembege, K. Issautier, L.B. Wilson III, S. Zhao, V.K. Jagarlamudi, X. Zhao, J. Huang, and N. Chrysaphi “Properties of A Supercritical Quasi-perpendicular Interplanetary Shock Propagating in the Terrestrial Foreshock Region,” Astrophys. J. Suppl. 263(11), pp. 15, doi:10.3847/1538-4365/ac94c8, 2022.
74. Kamaletdinov, S.R., I.Y. Vasko, R. Wang, A.V. Artemyev, E.V. Yushkov, and F.S. Mozer “Slow electron holes in the Earth’s bow shock,” Phys. Plasmas 29, pp. 092303, doi:10.1063/5.0102289, 2022.
75. Sun, J., I.Y. Vasko, S.D. Bale, R. Wang, and F.S. Mozer “Double Layers in the Earth’s Bow Shock,” Geophys. Res. Lett. 49(24), pp. e2022GL101348, doi:10.1029/2022GL101348, 2022.