Publications of D. Burgess

A list of publications authored or co-authored by D. Burgess, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0002-8175-9056

List of publications ordered by citations
Number of papers: 145 (refereed: 121)
No. of citations: 6523
First author papers: 37 (refereed: 24)

2025

1. A study of the transition to a turbulent shock using a coarse-graining approach to ion phase-space transport [3]
   Trotta, D., Valentini, F., Burgess, D. & Servidio, S., MNRAS, 536, 2825

2024

1. Estimating the wavelet bispectrum of multiband whistler mode waves [0]
   Shah, M. G. & Burgess, D., Frontiers in Astronomy and Space Sciences, 11, 1455400

2023

1. Three-dimensional modelling of the shock-turbulence interaction [32]
   Trotta, D., Pezzi, O., Burgess, D., Preisser, L., Blanco-Cano, X., Kajdic, P., Hietala, H., Horbury, T. S., Vainio, R., Dresing, N., Retinò, A., Marcucci, M. F., Sorriso-Valvo, L., Servidio, S. & Valentini, F., MNRAS, 525, 1856

2022

1. Plasma Turbulence in the Near-Sun and Near-Earth Solar Wind: A Comparison via Observation-Driven 2D Hybrid Simulations [3]
   Franci, Luca, Papini, Emanuele, Del Sarto, Daniele, Hellinger, Petr, Burgess, David, Matteini, Lorenzo, Landi, Simone & Montagud-Camps, Victor, Universe, 8, 453
2. Anisotropic Electron Heating in Turbulence-driven Magnetic Reconnection in the Near-Sun Solar Wind [32]
   Franci, Luca, Papini, Emanuele, Micera, Alfredo, Lapenta, Giovanni, Hellinger, Petr, Sarto, Daniele Del, Burgess, David & Landi, Simone, ApJ, 936, 27
3. Comparing Quasi-Parallel and Quasi-Perpendicular Configuration in the Terrestrial Magnetosheath: Multifractal Analysis [4]
   Gurchumelia, Alexandre, Sorriso-Valvo, Luca, Burgess, David, Yordanova, Emiliya, Elbakidze, Khatuna, Kharshiladze, Oleg & Kvaratskhelia, Diana, Frontiers in Physics, 10, 903632
4. Parametric study of magnetosheath jets in 2D local hybrid simulations [8]
   Tinoco-Arenas, Arturo, Kajdič, Primož, Preisser, Luis, Blanco-Cano, Xóchitl, Trotta, Domenico & Burgess, David, Frontiers in Astronomy and Space Sciences, 9, 5
5. On the Transmission of Turbulent Structures across the Earth's Bow Shock [33]
   Trotta, Domenico, Pecora, Francesco, Settino, Adriana, Perrone, Denise, Hietala, Heli, Horbury, Timothy, Matthaeus, William, Burgess, David, Servidio, Sergio & Valentini, Francesco, ApJ, 933, 167
6. A Case for Electron-Astrophysics [18]
   Verscharen, Daniel, Wicks, Robert T., Alexandrova, Olga, Bruno, Roberto, Burgess, David, Chen, Christopher H. K., D'Amicis, Raffaella, De Keyser, Johan, de Wit, Thierry Dudok, Franci, Luca, He, Jiansen, Henri, Pierre, Kasahara, Satoshi, Khotyaintsev, Yuri, Klein, Kristopher G., Lavraud, Benoit, Maruca, Bennett A., Maksimovic, Milan, Plaschke, Ferdinand, Poedts, Stefaan, Reynolds, Christopher S., Roberts, Owen, Sahraoui, Fouad, Saito, Shinji, Salem, Chadi S., Saur, Joachim, Servidio, Sergio, Stawarz, Julia E., Štverák, Štěpán & Told, Daniel, Experimental Astronomy, 54, 473

2021

1. Energetic Particles Associated with a Coronal Mass Ejection Shock Interacting with a Convected Magnetic Structure [21]
   Giacalone, J., Burgess, D., Bale, S. D., Desai, M. I., Mitchell, J. G., Lario, D., Chen, C. H. K., Christian, E. R., de Nolfo, G. A., Hill, M. E., Matthaeus, W. H., McComas, D. J., McNutt, R. L., Mitchell, D. G., Roelof, E. C., Schwadron, N. A., Getachew, Tibebu & Joyce, C. J., ApJ, 921, 102
2. ULF Wave Transmission Across Collisionless Shocks: 2.5D Local Hybrid Simulations [16]
   Kajdič, P., Pfau-Kempf, Y., Turc, L., Dimmock, A. P., Palmroth, M., Takahashi, K., Kilpua, E., Soucek, J., Takahashi, N., Preisser, L., Blanco-Cano, X., Trotta, D. & Burgess, D., Journal of Geophysical Research (Space Physics), 126, e29283
3. Direct Evidence for Magnetic Reflection of Heavy Ions from High Mach Number Collisionless Shocks [10]
   Madanian, Hadi, Schwartz, Steven J., Fuselier, Stephen A., Burgess, David, Turner, Drew L., Chen, Li-Jen, Desai, Mihir I. & Starkey, Michael J., ApJ, 915, L19
4. Phase space transport in the interaction between shocks and plasma turbulence [38]
   Trotta, Domenico, Valentini, Francesco, Burgess, David & Servidio, Sergio, Proceedings of the National Academy of Science, 118, e2026764118

2020

1. The Evolution and Role of Solar Wind Turbulence in the Inner Heliosphere [271]
   Chen, C. H. K., Bale, S. D., Bonnell, J. W., Borovikov, D., Bowen, T. A., Burgess, D., Case, A. W., Chandran, B. D. G., de Wit, T. Dudok, Goetz, K., Harvey, P. R., Kasper, J. C., Klein, K. G., Korreck, K. E., Larson, D., Livi, R., MacDowall, R. J., Malaspina, D. M., Mallet, A., McManus, M. D., Moncuquet, M., Pulupa, M., Stevens, M. L. & Whittlesey, P., ApJS, 246, 53
2. Modeling MMS Observations at the Earth's Magnetopause with Hybrid Simulations of Alfvénic Turbulence [27]
   Franci, Luca, Stawarz, Julia E., Papini, Emanuele, Hellinger, Petr, Nakamura, Takuma, Burgess, David, Landi, Simone, Verdini, Andrea, Matteini, Lorenzo, Ergun, Robert, Le Contel, Olivier & Lindqvist, Per-Arne, ApJ, 898, 175
3. The Solar Orbiter magnetometer [268]
   Horbury, T. S., O'Brien, H., Carrasco Blazquez, I., Bendyk, M., Brown, P., Hudson, R., Evans, V., Oddy, T. M., Carr, C. M., Beek, T. J., Cupido, E., Bhattacharya, S., Dominguez, J.-A., Matthews, L., Myklebust, V. R., Whiteside, B., Bale, S. D., Baumjohann, W., Burgess, D., Carbone, V., Cargill, P., Eastwood, J., Erdös, G., Fletcher, L., Forsyth, R., Giacalone, J., Glassmeier, K.-H., Goldstein, M. L., Hoeksema, T., Lockwood, M., Magnes, W., Maksimovic, M., Marsch, E., Matthaeus, W. H., Murphy, N., Nakariakov, V. M., Owen, C. J., Owens, M., Rodriguez-Pacheco, J., Richter, I., Riley, P., Russell, C. T., Schwartz, S., Vainio, R., Velli, M., Vennerstrom, S., Walsh, R., Wimmer-Schweingruber, R. F., Zank, G., Müller, D., Zouganelis, I. & Walsh, A. P., A&A, 642, A9
4. Influence of He⁺⁺ and Shock Geometry on Interplanetary Shocks in the Solar Wind: 2D Hybrid Simulations [15]
   Preisser, L., Blanco-Cano, X., Trotta, D., Burgess, D. & Kajdič, P., Journal of Geophysical Research (Space Physics), 125, e27442
5. Magnetosheath Jets and Plasmoids: Characteristics and Formation Mechanisms from Hybrid Simulations [23]
   Preisser, Luis, Blanco-Cano, Xóchitl, Kajdič, Primoz, Burgess, David & Trotta, Domenico, ApJ, 900, L6
6. Particle transport in hybrid PIC shock simulations: A comparison of diagnostics [18]
   Trotta, D., Burgess, D., Prete, G., Perri, S. & Zimbardo, G., MNRAS, 491, 580
7. Fast Acceleration of Transrelativistic Electrons in Astrophysical Turbulence [30]
   Trotta, Domenico, Franci, Luca, Burgess, David & Hellinger, Petr, ApJ, 894, 136

2019

1. Highly structured slow solar wind emerging from an equatorial coronal hole [547]
   Bale, S. D., Badman, S. T., Bonnell, J. W., Bowen, T. A., Burgess, D., Case, A. W., Cattell, C. A., Chandran, B. D. G., Chaston, C. C., Chen, C. H. K., Drake, J. F., de Wit, T. Dudok, Eastwood, J. P., Ergun, R. E., Farrell, W. M., Fong, C., Goetz, K., Goldstein, M., Goodrich, K. A., Harvey, P. R., Horbury, T. S., Howes, G. G., Kasper, J. C., Kellogg, P. J., Klimchuk, J. A., Korreck, K. E., Krasnoselskikh, V. V., Krucker, S., Laker, R., Larson, D. E., MacDowall, R. J., Maksimovic, M., Malaspina, D. M., Martinez-Oliveros, J., McComas, D. J., Meyer-Vernet, N., Moncuquet, M., Mozer, F. S., Phan, T. D., Pulupa, M., Raouafi, N. E., Salem, C., Stansby, D., Stevens, M., Szabo, A., Velli, M., Woolley, T. & Wygant, J. R., Nature, 576, 237
2. Multispacecraft Study of the Interaction Between an Interplanetary Shock and a Solar Wind Flux Rope [5]
   Blanco-Cano, X., Burgess, D., Sundberg, T. & Kajdič, P., Journal of Geophysical Research (Space Physics), 124, 9760
3. First Observations of Irregular Surface of Interplanetary Shocks at Ion Scales by Cluster [35]
   Kajdič, Primož, Preisser, Luis, Blanco-Cano, Xóchitl, Burgess, David & Trotta, Domenico, ApJ, 874, L13
4. Statistical Analysis of Ions in Two-Dimensional Plasma Turbulence [8]
   Pecora, Francesco, Pucci, Francesco, Lapenta, Giovanni, Burgess, David & Servidio, Sergio, Solar Physics, 294, 114
5. Electron acceleration at quasi-perpendicular shocks in sub- and supercritical regimes: 2D and 3D simulations [48]
   Trotta, D. & Burgess, D., MNRAS, 482, 1154
6. A Case for Electron-Astrophysics [6]
   Verscharen, Daniel, Wicks, Robert T., Alexandrova, Olga, Bruno, Roberto, Burgess, David, Chen, Christopher H. K., D'Amicis, Raffaella, De Keyser, Johan, Dudok de Wit, Thierry, Franci, Luca, He, Jiansen, Henri, Pierre, Kasahara, Satoshi, Khotyaintsev, Yuri, Klein, Kristopher G., Lavraud, Benoit, Maruca, Bennett A., Maksimovic, Milan, Plaschke, Ferdinand, Poedts, Stefaan, Reynolds, Chirstopher S., Roberts, Owen, Sahraoui, Fouad, Saito, Shinji, Salem, Chadi S., Saur, Joachim, Servidio, Sergio, Stawarz, Julia E., Stverak, Stepan & Told, Daniel, arXiv:1908.02206

2018

1. Ion diffusion and acceleration in plasma turbulence [19]
   Pecora, F., Servidio, S., Greco, A., Matthaeus, W. H., Burgess, D., Haynes, C. T., Carbone, V. & Veltri, P., Journal of Plasma Physics, 84, 725840601
2. Intense Electric Fields and Electron-Scale Substructure Within Magnetotail Flux Ropes as Revealed by the Magnetospheric Multiscale Mission [34]
   Stawarz, J. E., Eastwood, J. P., Genestreti, K. J., Nakamura, R., Ergun, R. E., Burgess, D., Burch, J. L., Fuselier, S. A., Gershman, D. J., Giles, B. L., Le Contel, O., Lindqvist, P.-A., Russell, C. T. & Torbert, R. B., Geophysical Research Letters, 45, 8783

2017

1. Comparison of linear modes in kinetic plasma models [4]
   Camporeale, Enrico & Burgess, David, Journal of Plasma Physics, 83, 535830201
2. Three-dimensional simulations of sheared current sheets: transition to turbulence? [8]
   Gingell, Imogen, Sorriso-Valvo, Luca, Burgess, David, De Vita, Gaetano & Matteini, Lorenzo, Journal of Plasma Physics, 83, 705830104
3. MMS Observations and Hybrid Simulations of Surface Ripples at a Marginally Quasi-Parallel Shock [56]
   Gingell, Imogen, Schwartz, Steven J., Burgess, David, Johlander, Andreas, Russell, Christopher T., Burch, James L., Ergun, Robert E., Fuselier, Stephen, Gershman, Daniel J., Giles, Barbara L., Goodrich, Katherine A., Khotyaintsev, Yuri V., Lavraud, Benoit, Lindqvist, Per-Arne, Strangeway, Robert J., Trattner, Karlheinz, Torbert, Roy B., Wei, Hanying & Wilder, Frederick, Journal of Geophysical Research (Space Physics), 122, 11,003
4. An in situ Comparison of Electron Acceleration at Collisionless Shocks under Differing Upstream Magnetic Field Orientations [15]
   Masters, A., Sulaiman, A. H., Stawarz, Ł., Reville, B., Sergis, N., Fujimoto, M., Burgess, D., Coates, A. J. & Dougherty, M. K., ApJ, 843, 147
5. The Dynamics of Very High Alfvén Mach Number Shocks in Space Plasmas [27]
   Sundberg, Torbjörn, Burgess, David, Scholer, Manfred, Masters, Adam & Sulaiman, Ali H., ApJ, 836, L4

2016

1. The FIELDS Instrument Suite for Solar Probe Plus. Measuring the Coronal Plasma and Magnetic Field, Plasma Waves and Turbulence, and Radio Signatures of Solar Transients [808]
   Bale, S. D., Goetz, K., Harvey, P. R., Turin, P., Bonnell, J. W., Dudok de Wit, T., Ergun, R. E., MacDowall, R. J., Pulupa, M., Andre, M., Bolton, M., Bougeret, J.-L., Bowen, T. A., Burgess, D., Cattell, C. A., Chandran, B. D. G., Chaston, C. C., Chen, C. H. K., Choi, M. K., Connerney, J. E., Cranmer, S., Diaz-Aguado, M., Donakowski, W., Drake, J. F., Farrell, W. M., Fergeau, P., Fermin, J., Fischer, J., Fox, N., Glaser, D., Goldstein, M., Gordon, D., Hanson, E., Harris, S. E., Hayes, L. M., Hinze, J. J., Hollweg, J. V., Horbury, T. S., Howard, R. A., Hoxie, V., Jannet, G., Karlsson, M., Kasper, J. C., Kellogg, P. J., Kien, M., Klimchuk, J. A., Krasnoselskikh, V. V., Krucker, S., Lynch, J. J., Maksimovic, M., Malaspina, D. M., Marker, S., Martin, P., Martinez-Oliveros, J., McCauley, J., McComas, D. J., McDonald, T., Meyer-Vernet, N., Moncuquet, M., Monson, S. J., Mozer, F. S., Murphy, S. D., Odom, J., Oliverson, R., Olson, J., Parker, E. N., Pankow, D., Phan, T., Quataert, E., Quinn, T., Ruplin, S. W., Salem, C., Seitz, D., Sheppard, D. A., Siy, A., Stevens, K., Summers, D., Szabo, A., Timofeeva, M., Vaivads, A., Velli, M., Yehle, A., Werthimer, D. & Wygant, J. R., Space Science Reviews, 204, 49
2. Multiple Current Sheet Systems in the Outer Heliosphere: Energy Release and Turbulence [20]
   Burgess, D., Gingell, P. W. & Matteini, L., ApJ, 822, 38
3. Microstructure in two- and three-dimensional hybrid simulations of perpendicular collisionless shocks [38]
   Burgess, David, Hellinger, Petr, Gingell, Imogen & Trávníček, Pavel M., Journal of Plasma Physics, 82, 905820401
4. Pickup ion processes associated with spacecraft thrusters: Implications for solar probe plus [0]
   Clemens, Adam & Burgess, David, Physics of Plasmas, 23, 032901
5. Explosive Particle Dispersion in Plasma Turbulence [20]
   Servidio, S., Haynes, C. T., Matthaeus, W. H., Burgess, D., Carbone, V. & Veltri, P., Physical Review Letters, 117, 095101
6. Ion Acceleration at the Quasi-parallel Bow Shock: Decoding the Signature of Injection [30]
   Sundberg, Torbjörn, Haynes, Christopher T., Burgess, D. & Mazelle, Christian X., ApJ, 820, 21
7. Turbulence Heating ObserveR - satellite mission proposal [44]
   Vaivads, A., Retinò, A., Soucek, J., Khotyaintsev, Yu. V., Valentini, F., Escoubet, C. P., Alexandrova, O., André, M., Bale, S. D., Balikhin, M., Burgess, D., Camporeale, E., Caprioli, D., Chen, C. H. K., Clacey, E., Cully, C. M., de Keyser, J., Eastwood, J. P., Fazakerley, A. N., Eriksson, S., Goldstein, M. L., Graham, D. B., Haaland, S., Hoshino, M., Ji, H., Karimabadi, H., Kucharek, H., Lavraud, B., Marcucci, F., Matthaeus, W. H., Moore, T. E., Nakamura, R., Narita, Y., Nemecek, Z., Norgren, C., Opgenoorth, H., Palmroth, M., Perrone, D., Pinçon, J.-L., Rathsman, P., Rothkaehl, H., Sahraoui, F., Servidio, S., Sorriso-Valvo, L., Vainio, R., Vörös, Z. & Wimmer-Schweingruber, R. F., Journal of Plasma Physics, 82, 905820501

2015

1. Collisionless Shocks in Space Plasmas [80]
   Burgess, David & Scholer, Manfred,
2. Magnetic field rotations in the solar wind at kinetic scales [23]
   Chen, C. H. K., Matteini, L., Burgess, D. & Horbury, T. S., MNRAS, 453, L64
3. The Three-dimensional Evolution of Ion-scale Current Sheets: Tearing and Drift-kink Instabilities in the Presence of Proton Temperature Anisotropy [20]
   Gingell, P. W., Burgess, D. & Matteini, L., ApJ, 802, 4
4. The impact of a hot sodium ion population on the growth of the Kelvin-Helmholtz instability in Mercury's magnetotail [8]
   Gingell, P. W., Sundberg, T. & Burgess, D., Journal of Geophysical Research (Space Physics), 120, 5432
5. Electron vortex magnetic holes: A nonlinear coherent plasma structure [90]
   Haynes, Christopher T., Burgess, David, Camporeale, Enrico & Sundberg, Torbjorn, Physics of Plasmas, 22, 012309
6. Quasiperpendicular High Mach Number Shocks [51]
   Sulaiman, A. H., Masters, A., Dougherty, M. K., Burgess, D., Fujimoto, M. & Hospodarsky, G. B., Physical Review Letters, 115, 125001
7. Properties and origin of subproton-scale magnetic holes in the terrestrial plasma sheet [63]
   Sundberg, T., Burgess, D. & Haynes, C. T., Journal of Geophysical Research (Space Physics), 120, 2600
8. Coherent wave activity in Mercury's magnetosheath [14]
   Sundberg, Torbjörn, Boardsen, Scott A., Burgess, David & Slavin, James A., Journal of Geophysical Research (Space Physics), 120, 7342

2014

1. Microphysics of Quasi-parallel Shocks in Collisionless Plasmas [4]
   Burgess, D. & Scholer, M., Microphysics of Cosmic Plasmas (Editors: Balogh, André, Bykov, Andrei, Cargill, Peter, Dendy, Richard, Dudok de Wit, Thierry & Raymond, John), p.437
2. Reconnection and Electron Temperature Anisotropy in Sub-proton Scale Plasma Turbulence [50]
   Haynes, C. T., Burgess, D. & Camporeale, E., ApJ, 783, 38
3. The formation of reverse shocks in magnetized high energy density supersonic plasma flows [36]
   Lebedev, S. V., Suttle, L., Swadling, G. F., Bennett, M., Bland, S. N., Burdiak, G. C., Burgess, D., Chittenden, J. P., Ciardi, A., Clemens, A., de Grouchy, P., Hall, G. N., Hare, J. D., Kalmoni, N., Niasse, N., Patankar, S., Sheng, L., Smith, R. A., Suzuki-Vidal, F., Yuan, J., Frank, A., Blackman, E. G. & Drake, R. P., Physics of Plasmas, 21, 056305
4. Temperature Anisotropy in the Presence of Ultra Low Frequency Waves in the Terrestrial Foreshock [5]
   Selzer, L. A., Hnat, B., Osman, K. T., Nakariakov, V. M., Eastwood, J. P. & Burgess, D., ApJ, 788, L5

2013

1. Ion Acceleration at the Earth's Bow Shock [1]
   Burgess, D., Möbius, E. & Scholer, M., Particle Acceleration in Cosmic Plasmas (Editors: Balogh, André, Bykov, Andrei, Lin, Robert P., Raymond, John & Scholer, Manfred), p.5
2. Microphysics of Quasi-parallel Shocks in Collisionless Plasmas [41]
   Burgess, D. & Scholer, M., Space Science Reviews, 178, 513
3. Foreword [0]
   Burgess, David, Drake, James, Marsch, Eckart, Velli, Marco, von Steiger, Rudolf & Zurbuchen, Thomas H., Multi-scale Physics in Coronal Heating and Solar Wind Acceleration (Editors: Burgess, David, Drake, James, Marsch, Eckart, von Steiger, Rudolf, Velli, Marco & Zurbuchen, Thomas), p.1
4. Multi-scale Physics in Coronal Heating and Solar Wind Acceleration [0]
   Burgess, David, Drake, James, Marsch, Eckart, von Steiger, Rudolf, Velli, Marco & Zurbuchen, Thomas,

2012

1. Ion Acceleration at the Earth's Bow Shock [121]
   Burgess, D., Möbius, E. & Scholer, M., Space Science Reviews, 173, 5
2. Foreword [2]
   Burgess, David, Drake, James, Marsch, Eckart, Velli, Marco, von Steiger, Rudolf & Zurbuchen, Thomas H., Space Science Reviews, 172, 1

2011

1. The Dissipation of Solar Wind Turbulent Fluctuations at Electron Scales [57]
   Camporeale, Enrico & Burgess, David, ApJ, 730, 114

2010

1. Electron Temperature Anisotropy in an Expanding Plasma: Particle-in-Cell Simulations [16]
   Camporeale, E. & Burgess, D., ApJ, 710, 1848
2. Implications of a Non-modal Linear Theory for the Marginal Stability State and the Dissipation of Fluctuations in the Solar Wind [25]
   Camporeale, Enrico, Passot, Thierry & Burgess, David, ApJ, 715, 260
3. Interaction between inclined current sheets and the heliospheric termination shock [20]
   Giacalone, Joe & Burgess, David, Geophysical Research Letters, 37, L19104

2009

1. Transient growth in stable collisionless plasma [14]
   Camporeale, Enrico, Burgess, David & Passot, Thierry, Physics of Plasmas, 16, 030703
2. Parsek2D: An Implicit Parallel Particle-in-Cell Code [10]
   Markidis, S., Camporeale, E., Burgess, D., Rizwan-Uddin & Lapenta, G., Numerical Modeling of Space Plasma Flows: ASTRONUM-2008 (Editors: Pogorelov, N. V., Audit, E., Colella, P. & Zank, G. P.), Astronomical Society of the Pacific Conference Series, 406, p. 237

2008

1. Electron firehose instability: Kinetic linear theory and two-dimensional particle-in-cell simulations [68]
   Camporeale, Enrico & Burgess, David, Journal of Geophysical Research (Space Physics), 113, A07107
2. Particle acceleration at coronal mass ejection-driven interplanetary shocks and the Earth's bow shock [17]
   Desai, M. I. & Burgess, D., Journal of Geophysical Research (Space Physics), 113, A00B06

2007

1. Shock front instability associated with reflected ions at the perpendicular shock [51]
   Burgess, D. & Scholer, M., Physics of Plasmas, 14, 012108
2. Particle Acceleration at the Earth's Bow Shock [16]
   Burgess, David, Lecture Notes in Physics, Berlin Springer Verlag (Editors: Klein, Karl-Ludwig & MacKinnon, Alexander L.), p.161
3. A Magnetometer For The Solar Orbiter Mission [0]
   Carr, C. M., Horbury, T. S., Balogh, A., Baumjohann, W., Bavassano, B., Breen, A., Burgess, D., Cargill, P. J., Brooker, N., Erdõs, G., Fletcher, L., Forsyth, R. J., Giacalone, J., Glassmeier, K.-H., Hoeksema, J. T., Goldstein, M. L., Lockwood, M., Magnes, W., Masimovic, M., Marsch, G., Matthaeus, W. H., Murphy, N., Nakariakov, V. M., Pacheco, J. R., Pincon, J.-L., Riley, P., Russell, C. T., Schwartz, S. J., Szabo, A., Thompson, M., Vainio, R., Velli, M., Vennerstrom, S., Walsh, R., Wimmer-Schweingruber, R. & Zank, G., Second Solar Orbiter Workshop (Editors: Marsch, E., Tsinganos, K., Marsden, R. & Conroy, L.), ESA Special Publication, 641, p. 41
4. Pickup protons at quasi-perpendicular shocks: full particle electrodynamic simulations [17]
   Matsukiyo, S., Scholer, M. & Burgess, D., Annales Geophysicae, 25, 283
5. Whistler waves, core ion heating, and nonstationarity in oblique collisionless shocks [35]
   Scholer, Manfred & Burgess, David, Physics of Plasmas, 14, 072103

2006

1. Interpreting multipoint observations of substructure at the quasi-perpendicular bow shock: Simulations [12]
   Burgess, D., Journal of Geophysical Research (Space Physics), 111, A10210
2. Simulations of Electron Acceleration at Collisionless Shocks: The Effects of Surface Fluctuations [66]
   Burgess, D., ApJ, 653, 316
3. Ripples observed on the surface of the Earth's quasi-perpendicular bow shock [43]
   Moullard, O., Burgess, D., Horbury, T. S. & Lucek, E. A., Journal of Geophysical Research (Space Physics), 111, A09113
4. Transition scale at quasiperpendicular collisionless shocks: Full particle electromagnetic simulations [13]
   Scholer, Manfred & Burgess, David, Physics of Plasmas, 13, 062101

2005

1. Quasi-perpendicular Shock Structure and Processes [0]
   Bale, S. D., Balikhin, M. A., Horbury, T. S., Krasnoselskikh, V. V., Kucharek, H., Möbius, E., Walker, S. N., Balogh, A., Burgess, D., Lembège, B., Lucek, E. A., Scholer, M., Schwartz, S. J. & Thomsen, M. F., Outer Magnetospheric Boundaries: Cluster Results (Editors: Paschmann, Goetz, Schwartz, S. J., Escoubet, C. P. & Haaland, S.), p.161
2. Quasi-perpendicular Shock Structure and Processes [163]
   Bale, S. D., Balikhin, M. A., Horbury, T. S., Krasnoselskikh, V. V., Kucharek, H., Möbius, E., Walker, S. N., Balogh, A., Burgess, D., Lembège, B., Lucek, E. A., Scholer, M., Schwartz7 10, S. J. & Thomsen, M. F., Space Science Reviews, 118, 161
3. Cluster at the Bow Shock: Introduction [19]
   Balogh, A., Schwartz, S. J., Bale, S. D., Balikhin, M. A., Burgess, D., Horbury, T. S., Krasnoselskikh, V. V., Kucharek, H., Lembège, B., Lucek, E. A., Möbius, E., Scholer, M., Thomsen, M. F. & Walker, S. N., Space Science Reviews, 118, 155
4. Cluster at the Bow Shock: Introduction [3]
   Balogh, A., Schwartz, S. J., Bale, S. D., Balikhin, M. A., Burgess, D., Horbury, T. S., Krasnoselskikh, V. V., Kucharek, H., Lembège, B., Lucek, E. A., Möbius, E., Scholer, M., Thomsen, M. F. & Walker, S. N., Outer Magnetospheric Boundaries: Cluster Results (Editors: Paschmann, Goetz, Schwartz, S. J., Escoubet, C. P. & Haaland, S.), p.155
5. Electron Acceleration and Structure in the Quasi-perpendicular Collisionless Shock [0]
   Burgess, D., The Physics of Collisionless Shocks: 4th Annual IGPP International Astrophysics Conference (Editors: Li, Gang, Zank, Gary P. & Russell, C. T.), American Institute of Physics Conference Series, 781, p. 17
6. Quasi-parallel Shock Structure and Processes [6]
   Burgess, D., Lucek, E. A., Scholer, M., Bale, S. D., Balikhin, M. A., Balogh, A., Horbury, sa T. S., Krasnoselskikh, V. V., Kucharek, H., Lembège, B., Möbius, E., Schwartz, S. J., Thomsen, M. F. & Walker, S. N., Outer Magnetospheric Boundaries: Cluster Results (Editors: Paschmann, Goetz, Schwartz, S. J., Escoubet, C. P. & Haaland, S.), p.205
7. Quasi-parallel Shock Structure and Processes [131]
   Burgess, D., Lucek, E. A., Scholer, M., Bale, S. D., Balikhin, M. A., Balogh, A., Horbury, T. S., Krasnoselskikh, V. V., Kucharek, H., Lembège, B., Möbius, E., Schwartz, S. J., Thomsen, M. F. & Walker, S. N., Space Science Reviews, 118, 205
8. Cluster at the Bow Shock: Status and Outlook [3]
   Scholer, M., Thomsen, M. F., Burgess, D., Bale, S. D., Balikhin, M. A., Balogh, A., Horbury, T. S., Krasnoselskikh, V. V., Kucharek, H., Lucek, E. A., Lembège, B., Möbius, E., Schwartz, S. J. & Walker, S. N., Space Science Reviews, 118, 223
9. Cluster at the Bow Shock: Status and Outlook [0]
   Scholer, M., Thomsen, M. F., Burgess, D., Bale, S. D., Balikhin, M. A., Balogh, A., Horbury, T. S., Krasnoselskikh, V. V., Kucharek, H., Lucek, E. A., Lembège, B., Möbius, E., Schwartz, S. J. & Walker, S. N., Outer Magnetospheric Boundaries: Cluster Results (Editors: Paschmann, Goetz, Schwartz, S. J., Escoubet, C. P. & Haaland, S.), p.223

2003

1. The properties and causes of rippling in quasi-perpendicular collisionless shock fronts [94]
   Lowe, R. E. & Burgess, D., Annales Geophysicae, 21, 671

2001

1. Electron acceleration at quasi-perpendicular shocks [0]
   Burgess, D. & Lowe, R. E., Space Plasma Simulation (Editors: Büchner, J., Dum, C. T. & Scholer, M.), p. 76
2. Prediction of Earth arrival times of interplanetary southward magnetic field turnings [18]
   Horbury, T. S., Burgess, D., Fränz, M. & Owen, C. J., Journal of Geophysical Research, 106, 30001
3. Three spacecraft observations of solar wind discontinuities [113]
   Horbury, Timothy S., Burgess, David, Fränz, Markus & Owen, Christopher J., Geophysical Research Letters, 28, 677
4. Whistler waves, Langmuir waves and single loss cone electron distributions inside a magnetic cloud: Observations [34]
   Moullard, O., Burgess, D., Salem, C., Mangeney, A., Larson, D. E. & Bale, S. D., Journal of Geophysical Research, 106, 8301

2000

1. QSAS: a Flexible Application for Modern Multi-Point Analysis [0]
   Allen, A. J., Barnes, J., Burgess, D., Fraenz, M. & Schwartz, S. J., Cluster-II Workshop Multiscale / Multipoint Plasma Measurements (Editors: Harris, Robert A.), ESA Special Publication, 449, p. 367
2. Magnetosphere of Earth: Bow Shock [0]
   Burgess, D., Encyclopedia of Astronomy and Astrophysics (Editors: Murdin, P.), p.2339
3. Multisatellite observations of large magnetic depressions in the solar wind [18]
   Chisham, G., Schwartz, S. J., Burgess, D., Bale, S. D., Dunlop, M. W. & Russell, C. T., Journal of Geophysical Research, 105, 2325
4. Magnetic field depressions in the solar wind [50]
   Fränz, M., Burgess, D. & Horbury, T. S., Journal of Geophysical Research, 105, 12725
5. Energetic electrons downstream of Earth's bow shock: Simulations of acceleration by shock structure [10]
   Lowe, R. E. & Burgess, D., Geophysical Research Letters, 27, 3249

1999

1. Shock Structure and its Effect on Electron Acceleration in Quasi-Perpendicular Shocks [1]
   Lowe, R. E. & Burgess, D., Magnetic Fields and Solar Processes (Editors: Wilson, A. & et al.), ESA Special Publication, 448, p. 1033

1998

1. Observations of electron distributions in magnetosheath mirror mode waves [29]
   Chisham, G., Burgess, D., Schwartz, S. J. & Dunlop, M. W., Journal of Geophysical Research, 103, 26765
2. Whistler waves observed during an in-situ solar type III radio burst [12]
   Moullard, O., Burgess, D. & Bale, S. D., A&A, 335, 703

1997

1. On the amplitude of intense Langmuir waves in the terrestrial electron foreshock [43]
   Bale, S. D., Burgess, D., Kellogg, P. J., Goetz, K. & Monson, S. J., Journal of Geophysical Research, 102, 11281
2. Langmuir wave amplitudes and the electron distribution function near the solar wind-foreshock boundary [3]
   Bale, S. D., Chisham, G., Burgess, D. & Schwartz, S. J., Advances in Space Research, 20, 695
3. Solar Wind and Interstellar Medium Coupling [0]
   Burgess, D., European Meeting on Solar Physics (Editors: Simnett, George M., Alissandrakis, Constantine E. & Vlahos, Loukas), p.117
4. What do we really know about upstream waves? [44]
   Burgess, D., Advances in Space Research, 20, 673
5. A large magnetic depression observed in the solar wind close to the earth's bow shock [1]
   Chisham, G., Bale, S. D., Burgess, D. & Schwartz, S. J., Advances in Space Research, 19, 869
6. Energetic particle anisotropies and remote magnetic connection at high solar latitudes [2]
   Fränz, M., Burgess, D., Keppler, E., Reuss, M. K. & Blake, J. B., Advances in Space Research, 19, 855
7. Injection and acceleration of thermal protons at quasi-parallel shocks: A hybrid simulation parameter survey [50]
   Giacalone, J., Burgess, D., Schwartz, S. J., Ellison, Donald C. & Bennett, Lee, Journal of Geophysical Research, 102, 19789

1996

1. Phase coupling in Langmuir wave packets: Possible evidence of three-wave interactions in the upstream solar wind [42]
   Bale, S. D., Burgess, D., Kellogg, P. J., Goetz, K., Howard, R. L. & Monson, S. J., Geophysical Research Letters, 23, 109
2. The anisotropy variations of electron distributions in the terrestrial ion foreshock [8]
   Chisham, G., Schwartz, S. J. & Burgess, D., Journal of Geophysical Research, 101, 445
3. Low-frequency waves in the Earthś magnetosheath: present status [167]
   Schwartz, S. J., Burgess, D. & Moses, J. J., Annales Geophysicae, 14, 1134

1995

1. Virtual Instruments for Space Plasmas [3]
   Burgess, D., Proceedings of the Cluster Workshops, Data Analysis Tools and Physical Measurements and Mission-Oriented Theory (Editors: Glassmeier, K.-H., Motschmann, U. & Schmidt, R.), ESA Special Publication, 371, p. 179
2. Foreshock-shock interaction at collisionless quasi-parallel shocks [35]
   Burgess, D., Advances in Space Research, 15, 159
3. Electron distributions in the ion foreshock [1]
   Chisham, G., Burgess, D. & Schwartz, S. J., Advances in Space Research, 15, 141
4. Electron dynamics and whistler waves at quasi-perpendicular shocks [28]
   Krauss-Varban, D., Pantellini, F. G. E. & Burgess, D., Geophysical Research Letters, 22, 2091
5. Ion distributions associated with mirror waves in the earth's magnetosheath [27]
   Leckband, J. A., Burgess, D., Pantellini, F. G. E. & Schwartz, S. J., Advances in Space Research, 15, 345
6. On the non-linear mirror instability [17]
   Pantellini, F. G. E., Burgess, D. & Schwartz, S. J., Advances in Space Research, 15, 341
7. A Software Instrument Investigation of Waves at Shocks [0]
   Wheeler, G. V., Woolliscroft, L. J. C., Burgess, D. H., Balikhin, M. A., Cornilleau-Werhlin, N. & Krasnosel'skikh, V. V., Proceedings of the Cluster Workshops, Data Analysis Tools and Physical Measurements and Mission-Oriented Theory (Editors: Glassmeier, K.-H., Motschmann, U. & Schmidt, R.), ESA Special Publication, 371, p. 279

1994

1. Mission-Oriented Modelling in Europe [1]
   Burgess, D., Solar-Terrestrial Energy Program (Editors: Baker, D. N., Papitashvili, V. O. & Teague, M. J.), p. 723
2. Artificial spacecraft in hybrid simulations of the quasi-parallel Earth's bow shock: Analysis of time series versus spatial profiles and a separation strategy for Cluster [15]
   Giacalone, J., Schwartz, S. J. & Burgess, D., Annales Geophysicae, 12, 591
3. Phase space evolution in linear instabilities [7]
   Pantellini, F. G. E., Burgess, D. & Schwartz, S. J., Physics of Plasmas, 1, 3784

1993

1. Simulations of particle acceleration in parallel shocks: Direct comparison between Monte Carlo and one-dimensional hybrid codes [41]
   Ellison, Donald C., Giacalone, J., Burgess, D. & Schwartz, S. J., Journal of Geophysical Research, 98, 21085
2. Ion Injection and Acceleration at Parallel Shocks: Comparisons of Self-consistent Plasma Simulations with Existing Theories [68]
   Giacalone, J., Burgess, D., Schwartz, S. J. & Ellison, Donald C., ApJ, 402, 550
3. Observations of suprathermal ions in association with SLAMS [48]
   Giacalone, Joe, Schwartz, Steven J. & Burgess, David, Geophysical Research Letters, 20, 149
4. Nonthermal ions and assoicated magnetic field behavior at a quasi-parallel earth's bow shock [16]
   Wilkinson, W. P., Pardaens, A. K., Schwartz, S. J., Burgess, D., Luehr, H., Kessel, R. L., Dunlop, M. & Farrugia, C. J., Journal of Geophysical Research, 98, 3889

1992

1. Simulations of collisionless shocks: Some implications for particle acceleration [1]
   Burgess, D., Particle Acceleration in Cosmic Plasmas (Editors: Zank, G. P. & Gaisser, T. K.), American Institute of Physics Conference Series, 264, p. 354
2. Hybrid simulations of protons strongly accelerated by a parallel collisionless shock [102]
   Giacalone, J., Burgess, D., Schwartz, S. J. & Ellison, Donald C., Geophysical Research Letters, 19, 433
3. Ion acceleration at parallel shocks: self-consistent plasma simulations. [15]
   Giacalone, J., Burgess, D. & Schwartz, S. J., Study of the Solar-Terrestrial System (Editors: Hunt, James J.), ESA Special Publication, 346, p. 65
4. Simulations of ion acceleration at parallel shocks [1]
   Giacalone, J., Burgess, D., Schwartz, S. J. & Ellison, D. C., Particle Acceleration in Cosmic Plasmas (Editors: Zank, G. P. & Gaisser, T. K.), American Institute of Physics Conference Series, 264, p. 360
5. The role of upstream waves in supercritical quasi-parallel shock re-formation [68]
   Scholer, M. & Burgess, D., Journal of Geophysical Research, 97, 8319
6. Observations of Short Large-Amplitude Magnetic Structures at a Quasi-Parallel Shock [205]
   Schwartz, Steven J., Burgess, David, Wilkinson, William P., Kessel, Ramona L., Dunlop, Malcolm & Luehr, Herman, Journal of Geophysical Research, 97, 4209

1991

1. Planetary magnetospheric physics I. Proceedings. Symposium 6 and Topical Meeting of the COSPAR Interdisciplinary Scientific Commission D (Meetings D2, D4) of the COSPAR 28. Plenary Meeting, The Hague (Netherlands), 25 Jun - 6 Jul 1990. [0]
   Grard, R. J. L., Buechner, J., Scholer, M. & Burgess, D., Advances in Space Research, 11,
2. Electron acceleration at nearly perpendicular collisionless shocks 2. Reflection at curved shocks [50]
   Krauss-Varban, D. & Burgess, D., Journal of Geophysical Research, 96, 143
3. Quasi-parallel shocks: A patchwork of three-dimensional structures [203]
   Schwartz, Steven J. & Burgess, David, Geophysical Research Letters, 18, 373

1989

1. Ion distributions and thermalization at perpendicular and quasi-perpendicular supercritical collisionless shocks [106]
   Burgess, D., Wilkinson, W. P. & Schwartz, S. J., Journal of Geophysical Research, 94, 8783
2. On the effect of a tangential discontinuity on ions specularly reflected at an oblique shock [69]
   Burgess, D., Journal of Geophysical Research, 94, 472
3. Cyclic behavior at quasi-parallel collisionless shocks [174]
   Burgess, D., Geophysical Research Letters, 16, 345
4. Alpha particles in field-aligned beams upstream of the bow shock: Simulations [37]
   Burgess, D., Geophysical Research Letters, 16, 163
5. Electron acceleration at nearly perpendicular collisionless shocks. I - One-dimensional simulations without electron scale fluctuations [67]
   Krauss-Varban, D., Burgess, D. & Wu, C. S., Journal of Geophysical Research, 94, 15089

1988

1. Colliding plasma structures: Current sheet and perpendicular shock [46]
   Burgess, D. & Schwartz, S. J., Journal of Geophysical Research, 93, 11327
2. ISEE observations of radiation at twice the solar wind plasma frequency. [54]
   Lacombe, C., Harvey, C. C., Hoang, S., Mangeney, A., Steinberg, J. L. & Burgess, D., Annales Geophysicae, 6, 113

1987

1. Simultaneous observation of fundamental and second harmonic radio emission from the terrestrial foreshock [31]
   Burgess, D., Harvey, C. C., Steinberg, J.-L. & Lacombe, C., Nature, 330, 732
2. AMPTE-UKS ion observations at a quasi-parallel bow shock [0]
   Burgess, D., Coates, A. J., Kessel, R. L., Rodgers, D. J. & Dunlop, M. W., Small Scale Plasma Processes in the Solar Chromosphere/Corona, Interplanetary Medium and Planetary Magnetospheres (Editors: Battrick, B. & Rolfe, E. J.), ESA Special Publication, 275, p. 45
3. Simulations of backstreaming ion beams formed at oblique shocks by direct reflection [56]
   Burgess, D., Annales Geophysicae, 5, 133
4. Shock drift acceleration at low energies [47]
   Burgess, David, Journal of Geophysical Research, 92, 1119

1986

1. Scatter-free propagation of low-energy protons in the magnetosheath: Implications for the production of field-aligned ion beams by nonthermal leakage [13]
   Burgess, D. & Luhmann, J. G., Journal of Geophysical Research, 91, 1439
2. Introduction [6]
   Burgess, David, Advances in Space Research, 6, 63

1984

1. The dynamics and upstream distributions of ions reflected at the earth's bow shock [40]
   Burgess, D. & Schwartz, S. J., Journal of Geophysical Research, 89, 7407
2. On the theoretical/observational comparison of field-aligned ion beams in the earth's foreshock [30]
   Schwartz, S. J. & Burgess, D., Journal of Geophysical Research, 89, 2381