D. AARON ROBERTS
Publications
1. 1973 ÒIonospheric Winds and the Diurnal Variation of the EarthÕs Magnetic Field,Ó D. Roberts, S.B. Thesis, Massachusetts Institute of Technology.
2. 1983 ÒDynamics and Evolution of the Jet from Quasar 3C273,Ó D. Roberts, Ph.D. Thesis, Massachusetts Institute of Technology
3. 1983 ÒErrors, Discrepancies and the Nature of Physics: An Approach to Physics Labs,Ó D. Roberts, The Physics Teacher, 21, 155.
4. 1983 ÒHow Batteries Work: A Gravitational Analog,Ó D. Roberts, American Journal of Physics, 51, 829.
5. 1984 ÒRelativistic Jet Meets Target: The Gamma Rays from 3C273,Ó P. Morrison, D. Roberts, A. Sadun, Astrophysical Journal, 280, 483.
6. 1984 ÒConstraints on Continuous Beam Models of the Jet from 3C273,Ó D. Roberts, Astrophysical Journal, 285, 64.
7. 1985 ÒA Shadowed Flow in the Stem of the Crab Nebula?Ó P. Morrison and D. Roberts, Nature, 313, 661.
8. 1985 ÒAn Alternate Approach to Finding and Using the Lie Group of the Vlasov Equation,Ó D. Roberts, Journal of Mathematical Physics, 26, 1529.
9. 1985 ÒThe General Lie Group and Similarity Solutions for the One Dimensional Vlasov-Maxwell Equations,Ó D. Roberts, Journal of Plasma Physics, 33, 219.
10. 1986 ÒKnots, Wiggles, and Flaring in Ballistic and Stochastic Jets,Ó D. A. Roberts, Astrophysical Journal, 300, 568.
11. 1986 ÒSystematic Errors in Determining the Propagation Direction of Interplanetary AlfvŽnic Fluctuations,Ó M. L. Goldstein, D. A. Roberts, and W. H. Matthaeus, Journal of Geophysical Research, 91, 13,357.
12. 1987 ÒAnalysis of Vessel Absorption Profiles in Retinal Oximetry,Ó D. A. Roberts, Medical Physics, 14, 124.
13. 1987 ÒParticle Paths and Phase Plane for Time-Dependent Similarity Solutions of the Vlasov-Maxwell Equations,Ó D. A. Roberts and B. Abraham-Shrauner, Journal of Plasma Physics, 38, 335.
14. 1987 ÒSpectral Signatures of Jumps and Turbulence Interplanetary Speed and Magnetic Field Data,Ó D. A. Roberts and M. L. Goldstein, Journal of Geophysical Research, 92, 10,105.
15. 1987 ÒNumerical Simulation of the Generation of Turbulence from Cometary Ion Pickup,Ó M. L. Goldstein, D. A. Roberts, and W. H. Matthaeus, Geophysical Research Letters, 14, 860.
16. 1987 ÒNature and Evolution of Magnetohydrodynamic Fluctuations in the Solar Wind: Voyager Observations,Ó D. A. Roberts, L. W. Klein, M. L. Goldstein, and W. H. Matthaeus, Journal of Geophysical Research, 92, 11,021.
17. 1987 ÒOrigin and Evolution of Fluctuations in the Solar Wind: Helios Observations and Helios-Voyager Comparisons,Ó D. A. Roberts, M. L. Goldstein, L. W. Klein, and W. H. Matthaeus, Journal of Geophysical Research, 92, 12,023.
18. 1987 ÒNumerical Simulation of Solar Wind and Magnetospheric Phenomena,Ó M. L. Goldstein, D. A. Roberts, S. Ghosh, W. H. Matthaeus, in Proceedings of the 21st ESLAB Symposium, Bokesjo, Norway, edited by B. Battrick and E. J. Wolfe, ESA SP-275, European Space Agency, p. 161, Noordwijk, The Netherlands, p. 115
19. 1988 ÒLie Group Theory Applied to the Nonlinear Vlasov-Maxwell Equations in One and Three Dimensions,Ó D. A. Roberts (invited paper), Mathematical and Computer Modeling, 11, 535.
20. 1988 ÒSimulation of Interplanetary Dynamical Processes,Ó D. A. Roberts and M. L. Goldstein (invited paper), Proceedings of the Third International Conference on Supercomputing, International Supercomputing Institute, Inc., St. Petersburg, FL, p. 370.
21. 1989 ÒNumerical Simulation of Interplanetary and Magnetospheric Phenomena: The Kelvin-Helmholtz Instability,Ó (invited paper) M. L. Goldstein, D. A. Roberts, and W. H. Matthaeus, Solar System Plasma Physics, J. H. Waite, Jr., J. L. Burch, R. L. Moore, eds, AGU, Washington, DC, p. 113.
22. 1989 ÒObservation and Simulation of MHD Turbulence in the Solar Wind,Ó D. A. Roberts, M. L. Goldstein, L. W. Klein, and W. H. Matthaeus, in Turbulence and Nonlinear Dynamics in MHD Flows (CargŽse, July 4-8, 1988), p. 87.
23. 1989 ÒQuasi-two-dimensional Nearly-incompressible Solar Wind Fluctuations,Ó M. L. Goldstein, W. H. Matthaeus, and D. A. Roberts, in Turbulence and Nonlinear Dynamics in MHD Flows (CargŽse, July 4-8, 1988), p. 107.
24. 1989 ÒLarge-scale Fluctuations at 1 AU: 1978-1982,Ó L. F. Burlaga, W. H. Mish, and D. A. Roberts, Journal of Geophysical Research, 94, 177.
25. 1989 ÒInterplanetary Observational Constraints on AlfvŽn Wave Acceleration of the Solar Wind,Ó D. A. Roberts, Journal of Geophysical Research, 94, 6899.
26. 1989 ÒSpectral Evolution and Cascade Constant of Solar Wind AlfvŽnic Turbulence,Ó C.-Y. Tu, D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 94, 13,575.
27. 1990 ÒDo Interplanetary AlfvŽn Waves Cause Auroral Activity?Ó D. A. Roberts and M. L. Goldstein, Journal of Geophysical Research, 95, 4327.
28. 1990 ÒThe Amplitudes of Interplanetary Fluctuations: Stream Structure, Heliocentric Distance, and Frequency DependenceÓ D. A. Roberts, M. L. Goldstein, and L. W. Klein, Journal of Geophysical Research, 95, 4203.
29. 1990 ÒHeliocentric Distance and Temporal Dependence of the Interplanetary Density-Magnetic Field Magnitude Correlation,Ó D. A. Roberts, Journal of Geophysical Research, 95, 1087.
30. 1990 ÒTurbulent Polar Heliospheric Magnetic Fields,Ó D. A. Roberts, Geophysical Research Letters, 17, 567.
31. 1990 ÒPhysical Consistency in Modeling Interplanetary Magnetohydrodynamic Fluctuations,Ó Y. Zhou, W. H. Matthaeus, D. A. Roberts, and M. L. Goldstein, Physical Review Letters, 64, 2591.
32. 1990 ÒA Quasi-Two-Dimensional, Nearly-Incompressible Model of Solar Wind Fluctuations,Ó W. H. Matthaeus, M. L. Goldstein, and D. A. Roberts, Journal of Geophysical Research, 95, 20,673.
33. 1991 ÒAnisotropy of Solar Wind Magnetic Field Fluctuations in the Outer Heliosphere,Ó L. W. Klein, D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 96, 3779.
34. 1991 ÒIndications of Low-Dimensionality in Magnetospheric Dynamics,Ó D. A. Roberts, D. N. Baker, A. J. Klimas, and L. F. Bargatze, Geophysical Research Letters, 18, 151.
35. 1991 ÒTurbulence and Waves in the Solar Wind,Ó D. A. Roberts and M. L. Goldstein, Reviews of Geophysics, 29(S), 932.
36. 1991 ÒReply to: Comment on ÔDo AlfvŽn Waves Cause Auroral ActivityÕ by B. Tsurutani and W. GonzalezÕ,Ó D. A. Roberts and M. L. Goldstein, Journal of Geophysical Research, 96, 1879.
37. 1991 ÒIs There a Strange Attractor in the Magnetosphere?,Ó D. A. Roberts, Journal of Geophysical Research, 96, 16031.
38. 1991 ÒLinear Prediction Filters for Linear and Nonlinear Modeled Geomagnetic Activity,Ó A. J. Klimas, D. N. Baker, and D. A. Roberts, Geophysical Research Letters, 18, 1635.
39. 1991 ÒExamination of Time-Variable Input Effects in a Nonlinear Analog Magnetosphere Model,Ó D. N. Baker, A. J. Klimas, and D. A. Roberts, Geophysical Research Letters, 18, 1631.
40. 1991 ÒA Nonlinear Dynamical Analog Model of Substorms,Ó A. J. Klimas, D. N. Baker, D. A. Roberts, D. H. Fairfield, and J. BŸchner, in Magnetic Substorms, edited by J. R. Kan, T. A. Potemera, S. Kokubun, and T. Tajima, AGU Monograph, Washington DC, 1991.
41. 1991 ÒThe Structure of Helical Interplanetary Magnetic Fields,Ó M. L. Goldstein, D. A. Roberts, and C. A. Fitch, Geophysical Research Letters, 18, 1505.
42. 1991 ÒMHD Simulation of the Radial Evolution and Stream Structure of Solar Wind Turbulence,Ó D. A. Roberts, S. Ghosh, M. L. Goldstein, and W. H. Matthaeus, Physical Review Letters, 67, 3741.
43. 1992 ÒEvolution of Spatial and Temporal Correlations in the Solar Wind,Ó L. W. Klein, W. H. Matthaeus, D. A. Roberts, and M. L. Goldstein, in Solar Wind Seven, COSPAR Colloquium Series, 3, edited by E. Marsch and R. Schwenn, Pergamon Press, Oxford, p. 197.
44. 1992 ÒObservation and Simulation of the Radial Evolution and Stream Structure of Solar Wind Turbulence,Ó D. A. Roberts, in Solar Wind Seven, COSPAR Colloquium Series, 3, edited by E. Marsch and R. Schwenn, Pergamon Press, Oxford, p. 533.
45. 1992 ÒVelocity Shear Generation of Solar Wind Turbulence,Ó D. A. Roberts, M. L. Goldstein, W. H. Matthaeus, and S. Ghosh, Journal of Geophysical Research, 97, 17,115..
46. 1992 ÒA Nonlinear Dynamical Analog Model of Geomagnetic Activity,Ó A. J. Klimas, D. N. Baker, D. A. Roberts, D. H. Fairfield, and J. BŸchner, Journal of Geophysical Research, 97, 12,253.
47. 1992 ÒAn Evolving MHD Vortex Street Model for Quasi-Periodic Solar Wind Fluctuations,Ó E. Siregar, D. A. Roberts, and M. L. Goldstein, Geophysical Research Letters, 19, 1427.
48. 1993 ÒThe Radial Evolution of the Amplitudes of ÒDissipationlessÓ Turbulent Solar Wind Fluctuations,Ó M. K. Verma and D. A. Roberts, Journal of Geophysical Research, 98, 5625.
49. 1993 ÒQuasi-Periodic Transverse Plasma Flow Associated With an Evolving MHD Vortex Street in the Outer Heliosphere,Ó E. Siregar, D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 98, 13,233.
50. 1993 ÒAn Algorithm for Finding Spurious Points in Turbulent Signals,Ó D. A. Roberts, Computers in Physics, 7, 599.
51. 1993 ÒMeasurement of the MHD Rugged Invariants Using Multiple Spacecraft,Ó D. A. Roberts and M. L. Goldstein, invited paper, in Spatio-Temporal Analysis for Resolving Plasma Turbulence, Aussois, France, Feb. 1993, ESA publ. WPP-047, p. 187.
52. 1994 ÒProperties of the Fluctuating Magnetic Helicity in the Inertial and Dissipation Ranges of Solar Wind Turbulence,Ó M. L. Goldstein, D. A. Roberts, and C. A. Fitch, Journal of Geophysical Research, 99, 11,519.
53. 1994 ÒSubstorm Recurrence During Steady and Variable Solar Wind Driving: Evidence for a Normal Unloading Mode in the Dynamics of the Magnetosphere,Ó A. J. Klimas, D. N. Baker, D. V. Vassiliadis, and D. A. Roberts, Journal of Geophysical Research, 99, 14,855.
54. 1995 ÒA Description of Solar Wind-Magnetosphere Coupling Based on Nonlinear Filters,Ó D. V. Vassiliadis, A. J. Klimas, D. N. Baker, and D. A. Roberts, Journal of Geophysical Research, 100, 3,495.
55. 1995 ÒMagnetohydrodynamic Turbulence in Cosmic Winds,Ó M. L. Goldstein, D. A. Roberts, and W. H. Matthaeus, invited chapter in Cosmic Winds and the Heliosphere, J. R. Jokipii, C. P. Sonett, and M. S. Giampapa, eds., University of Arizona Press, Tucson, in press
56. 1995 ÒMagnetohydrodynamics of Interacting Vortex Sheets,Ó E. Siregar, D. A. Roberts, and M. L. Goldstein, in Space Plasmas: Coupling Between Small and Medium Scale Processes, AGU Monograph, 86, p. 49.
57. 1995 ÒNonequilibrium, Large-Amplitude MHD Fluctuations in the Solar Wind,Ó D. A. Roberts and M. J. Wiltberger, Journal of Geophysical Research, 100, 3,405.
58. 1995 ÒObserved properties of helical interplanetary magnetic fields,Ó M. L. Goldstein, D. A. Roberts, and C. A. Fitch, in Space Plasmas: Coupling Between Small and Medium Scale Processes, AGU Monograph, 86, p. 49.
59. 1995 ÒMagnetohydrodynamic turbulence in the solar wind,Ó M. L. Goldstein, D. A. Roberts, and W. H. Matthaeus, in Annual Reviews of Astronomy and Astrophysics, vol. 34, p. 283.
60. 1995 ÒComment on, ÔOn two-component models of solar wind fluctuations,Õ by Y.-Q. Lou,Ó D. A. Roberts, Journal of Geophysical Research, 100, 17,135.
61. 1995 ÒTurbulent Heating and Temperature Evolution in the Solar Wind Plasma,Ó M. K. Verma, D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 100, 19,839.
62. 1995 ÒStochastic Proton Acceleration by Cascading AlfvŽn Waves in Impulsive Solar Flares,Ó J. A. Miller and D. A. Roberts, Astrophysical Journal, 452, 912.
63. 1995 ÒProperties of Magnetohydrodynamic Turbulence in the Solar Wind as Observed by Ulysses at High Heliographic Latitudes,Ó B. E. Goldstein, E. J. Smith, A. Balogh, T. S. Horbury, M. L. Goldstein, and D. A. Roberts, Geophysical Research Letters, 22, 3393.
64. 1996 ÒNonlinear Evolution of Interplanetary AlfvŽnic Fluctuations with Convected Structures,Ó D. A. Roberts, S. Ghosh, and M. L. Goldstein, Geophysical Research Letters, 23, 591.
65. 1996 ÒNumerical Simulations of Large-Scale Solar Wind Fluctuations Observed by Ulysses at High Heliographic Latitudes,Ó M. L. Goldstein, D. A. Roberts, and S. Ghosh, Geophysical Research Letters, 22, 3413.
66. 1996 ÒSimulation of High Frequency Solar Wind Power Spectra Using Hall Magnetohydrodynamics,Ó S. Ghosh, E. Siregar, D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 101, 2493.
67. 1996 ÒA Three-dimensional Magnetohydrodynamic Model of the Inner Heliospheric Current Sheet Region,Ó T. Stribling, D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 101, 27,603.
68. 1996 ÒAnisotropic Three-Dimensional MHD Turbulence,Ó W. H. Matthaeus, S. Ghosh, S. Oughton, and D. A. Roberts, Journal of Geophysical Research, 101, 7619.
69. 1996 ÒA Numerical Study of the Nonlinear Cascade of Energy in Magnetohydrodynamic Turbulence,Ó M. K. Verma, D. A. Roberts, M. L. Goldstein, S. Ghosh, and W. T. Stribling, Journal of Geophysical Research, 101, 21,619.
70. 1996 ÒThe Nature of the Solar Wind,Ó D. A. Roberts, K. W. Ogilvie, and M. L. Goldstein, Nature, 381, 31.
71. 1996 ÒThe Organized Nonlinear Dynamics of the Magnetosphere,Ó A. J. Klimas, D. Vassiliadis, D. Baker, and D. A. Roberts, Journal of Geophysical Research, 101, 13,089.
72. 1996 ÒThe nonlinearity of models of the vBSouth-AL coupling,Ó D. Vassiliadis, A. J. Klimas, D. N. Baker, and D. A. Roberts, Journal of Geophysical Research, 101, 19,779.
73. 1996 ÒIn Situ Measurement Requirements for a Solar Probe,Ó D. A. Roberts and J. Gosling, Invited Moderator Review in Scientific Basis for Robotic Exploration Close to the Sun, S. Habbal, ed., New York, AIP, p. 3.
74. 1996 ÒThe Role of Waves, Turbulence, and Structures in Heating and Accelerating the Solar Wind,Ó D. A. Roberts, Invited Paper in Scientific Basis for Robotic Exploration Close to the Sun, S. Habbal, ed., New York, AIP, p. 185.
75. 1997 ÒTwo Handed Volumetric Document Corpus Management,Ó D. S. Ebert, A. Zwa, E. L. Miller, C. D. Shaw, and D. A. Roberts, IEEE Computer Graphics and Applications, 17, 60.
76. 1997 "Numerical Simulation of MHD Turbulence in Three Dimensions," M. L. Goldstein, D. A. Roberts, and A. Deane, The 31st ESLAB Symposium: Correlated Phenomena at the Sun, in the Heliosphere, and in Geospace, ESA, SP-415, p, 83.
77. 1998 ÒGeneration of Nonthermal Electron Distributions by Turbulent Waves Near the Sun,Ó D. A. Roberts and J. A. Miller, Geophysical Research Letters, 25, 607.
78. 1998 ÒEvidence for a High-Latitude Origin of Lower-Latitude High Speed Wind,Ó D. A. Roberts and M. L. Goldstein, Geophysical Research Letters, 25, 1998.
79. 1998 "The evolution of slab fluctuations in the presence of pressure-balanced structures and velocity shears," S. Ghosh, W. H. Matthaeus, D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 103, 23,691.
80. 1998 "Waves, structures, and the appearance of two-component turbulence in the solar wind," S. Ghosh, W. H. Matthaeus, D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 103, 23,705.
81. 1998 "Nonlinear evolution of AlfvŽnic wave packets," B. Buti, V. Jayanti, A. F. Vi–as, M. L. Goldstein, D. A. Roberts, G. S. Lakhina, and B. T. Tsurutani, Geophysical Research Letters, 25, 2733.
82. 1999 ÒQuasi-Two-Dimensional MHD Turbulence in Three-Dimensional Flows,Ó D. A. Roberts, M. L. Goldstein, A. Deane, and S. Ghosh, Physical Review Letters, 82, 548.
83. 1999 ÒNumerical Simulation of AlfvŽnic Turbulence in the Solar Wind,Ó M. L. Goldstein, D. A. Roberts, A. Deane, S. Ghosh, and H. K. Wong, Journal of Geophysical Research, 104, 14,437.
84. 1999 ÒAlfvŽn wave phase mixing driven by velocity shear in two-dimensional open magnetic configurations,Ó M. Ruderman, M. L. Goldstein, D. A. Roberts, A. Deane, and L. Ofman, Journal of Geophysical Research, 104, 17,057.
85. 1999 ÒA kinematic analysis of the role of velocity shear in expanding plasmas,Ó D. A. Roberts and S. Ghosh, Journal of Geophysical Research, 104, 22,395.
86. 1999 "Numerical simulation of AlfvŽnic turbulence in the solar wind," M. L. Goldstein, D. A. Roberts, A. Deane, and H. K. Wong, Solar Wind 9, edited by S. R. Habbal, R. Esser, J. V. Hollweg, and P. A. Isenberg, AIP, Woodbury, NY, pp. 535-538
87. 1999 "AlfvŽn wave phase mixing driven by velocity shear in two dimensions," M. S. Ruderman, M. L. Goldstein, D. A. Roberts, A. Deane, and L. Ofman, Solar Wind 9, edited by S. R. Habbal, R. Esser, J. V. Hollweg, and P. A. Isenberg, AIP, Woodbury, NY, pp. 337-340
88. 1999 ÒÔSlabÕ modes, quasi-2-D turbulence, shear, and flux tubes in the expanding solar wind,Ó (invited) D. A. Roberts, M. L. Goldstein, A. Deane, and S. Ghosh, Solar Wind 9, edited by S. R. Habbal, R. Esser, J. V. Hollweg, and P. A. Isenberg, AIP, Woodbury, NY, pp. 161-166.
89. 1999 ÒDensity Fluctuations in the Presence of Slab and Quasi-Two-Dimensional Turbulence,Ó S. Ghosh, W. H. Matthaeus, D. A. Roberts, and M. L. Goldstein, Solar Wind 9, edited by S. R. Habbal, R. Esser, J. V. Hollweg, and P. A. Isenberg, AIP, Woodbury, NY, pp. 527-530.
90. 1999 "Magnetohydrodynamic turbulence in the solar wind," M. L. Goldstein and D. A. Roberts, Physics of Plasmas, 6, 4154.
91. 2000 ÒProcedural shape generation for multi-dimensional data visualization,Ó D. S. Ebert, R.M. Rohrer, C. D. Shaw, P. Panda, J. M. Kukla, D. A. Roberts, Computers & Graphics-UK, 24, 375
92. 2001 ÒCorrelation of solar wind parameters between SOHO and Wind,Ó M. A. Coplan, F. Ipavich, J. King, K. W. Ogilvie, D. A. Roberts, and A. J. Lazarus, Journal of Geophysical Research, 106, 18,615.
93. 2001 ÒNorth-South flows in the outer heliosphere at solar minimum: Vortex streets or corotating interaction regions?Ó M. L. Goldstein, D. A. Roberts, L. F. Burlaga, E. Siregar, and A. Deane, Journal of Geophysical Research, 106, 15,973.
94. 2001 ÒMagnetic Field lines and spectra in the inhomogeneous, expanding, nonlinear heliosphere,Ó D. A. Roberts, M. L. Goldstein, and A. E. Deane, Space Plasma Simulation: Proceedings of ISSS-6, Editied by J. BŸchner, C. T. Dum, and M. Scholer. Garching, Germany: Copernicus Gesellschaft, 2001, p. 136.
95. 2001 ÒSolving the equations of magnetohydrodynamics in three dimensions to study the origin and evolution of turbulence in the solar wind,Ó M. L. Goldstein, D. A. Roberts, and A. E. Deane, Space Plasma Simulation: Proceedings of ISSS-6, Editied by J. BŸchner, C. T. Dum, and M. Scholer. Garching, Germany: Copernicus Gesellschaft, 2001, p. 128.
96. 2005 ÒOrigin and Dynamics of the Heliospheric Plasma and Current Sheets,Ó D. A. Roberts, P. Keiter, and M. L. Goldstein, Journal of Geophysical Research, 110, DOI: 10.1029/2004JA010541
97. 2003 ÒMHD Simulation of the Effects of Microstreams on Solar Wind TurbulenceÓ M. L. Goldstein, D. A. Roberts, and A. Deane, in Solar Wind 10, edited by M. Velli and R. Bruno, AIP, Woodbury, NY, p. 405.
98. 2003 ÒThree-Dimensional MHD Simulation of Solar Wind StructureÓ D. A. Roberts, M. L. Goldstein, and A. Deane, in Solar Wind 10, edited by M. Velli and R. Bruno, AIP, Woodbury, NY, p. 133.
99. 2004 ÒAn unexplained 10Ð40¡ shift in the location of some diverse 3 neutral atom data at 1 AU 4,Ó Michael R. Collier, Thomas E. Moore, David Simpson, Aaron Roberts, Adam Szabo, Stephen Fuselier, Peter Wurz, Martin A. Lee, Bruce T. Tsurutani, Advances in Space Research, Elsevier, p. 166.
100. 2005 ÒPlasma
sheet turbulence observed by Cluster II,Ó James M. Weygand, M.G. Kivelson, K.K.
Khurana, H.K. Schwarzl, S.M. Thompson, R.L. McPherron, A. Balogh, L. Kistler,
M.L. Goldstein, J. Borovsky, and D.A. Roberts, J. Geophys. Res., DOI:
10.1029/2004JA010581..
101. 2006 ÒInteraction of Electric Fields with a Plasma: Application to Solar Flares,Ó S. Kainer, D.A. Roberts, and M.L. Goldstein, Journal of Geophysical Research, in preparation.
102. 2005 ÒNumerical simulations of solar wind turbulence,Ó M.L. Goldstein, D.A. Roberts, and A.V. Usmanov, in Proceedings of the Sun Earth Connections Workshop, Kona, Hawaii, T. Lui, Editor, in press. _
103. 2006 ÒSelf-similar scaling of magnetic energy in the inertial range of solar wind turbulence,Ó Podesta, J. J., D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 111, A09105, DOI: 10.1029/2006JA011766.
104. 2006 ÒPower Spectrum of Small Scale Turbulent Velocity Fluctuations in the Solar Wind,Ó Podesta, J. J., D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 111, DOI: 10.1029/2006JA011834
105. 2008 ÒRecent developments towards a Solar System Virtual Observatory,Ó C. C. Harvey, M. Gangloff, T. King, C. H. Perry, D. A. Roberts, and J. Thieman, Earth Science Informatics, DOI: 10.1007/s12145-008-0008-1.
106. 2007 ÒSolar Wind Structure Suggested by Bimodal Correlations of Solar Wind Speed and Density between the Spacecraft SoHO and Wind, K. W. Ogilvie, M. A. Coplan, D. A. Roberts, F. Ipavich, Journal of Geophysical Research, 112, A08104, DOI: 10.1029/2007JA012248.
107. 2007 ÒSpectra of polar heliospheric fields and implications for field structure,Ó D. A. Roberts, J. Giacalone, J. R. Jokipii, M. L. Goldstein, and T. D. Zepp, Journal of Geophysical Research, 112, A08103, DOI: 10.1029/2007JA012247.
108. 2007 ÒSpectral Exponents of Kinetic and Magnetic Energy Spectra in Solar Wind Turbulence,Ó J. J. Podesta, D. A. Roberts, and M. L. Goldstein, Astrophysical Journal, 664, 543.
109. 2007 ÒMode decomposition scheme for ideal magnetohydrodynamic plane waves in space-time coordinates,Ó Podesta, J. J., M. L. Goldstein, and D. A. Roberts, Journal of Geophysical Research, 112, doi:10.1029/2006JA012097.
110. 2008 ÒAcoustic Kappa-Density Fluctuation Waves in Suprathermal Kappa Function Fluids,Ó M. R. Collier, D. A. Roberts, and A. F. Vi–as, Advances in Space Research, 41, 1704.
111. 2009 ÒThe solar wind magnetic variance directions: solutions and puzzles,Ó D. A. Roberts, C. J. Han, M. L. Goldstein, in preparation.
112. 2009 ÒSolar and solar wind properties determined from 30 years of OMNI data,Ó D. A. Roberts, in preparation.
113. 2009 ÒScale-dependent angle of alignment between velocity and magnetic field fluctuations in solar wind turbulence,Ó Podesta, J. J., B. Chandran, A. Bhattacharjee D. A. Roberts, and M. L. Goldstein, Journal of Geophysical Research, 114, A01107, DOI: 10.1029/2008JA013504.
114. 2010 ÒDemonstrations that the Solar Wind is Not Accelerated by Waves or Turbulence,Ó D. A. Roberts, Astrophysical Journal, 711, 1044.
115. 2009 ÒA New Multivariate Time Series Data Analysis Technique: Automated Detection of Flux Transfer Events Using Cluster Data,Ó H. Karimabadi, T. B. Sipes, Y. Wang, B. Lavraud, and A. Roberts, Journal of Geophysical Research, 114, A06216, doi:10.1029/2009JA014202.
116. 2009 ÒA One-Sided Aspect of AlfvŽnic Fluctuations in the Solar Wind,Ó J. T. Gosling, D. J. McComas, D. A. Roberts, and R. M. Skoug, Astrophysical Journal Letters, 695, L213.
117, 2010 ÒSPASE and the Heliophysics Virtual Observatories,Ó J. R. Thieman, D. A. Roberts, T. A. King, C. C. Hravey, and P. A. Richards, Data Science Journal, 9, 6 March.
118. 2009 "Using Virtual Observatories for Heliophysics Research," Robert S. Weigel, Daniel N. Baker, D. Aaron Roberts, and Todd King, EOS Transactions, 90, 441-442.
119. 2010 ÒThe evolution of the spectrum of solar wind velocity fluctuations from 0.3 to 5 AU,Ó D. Aaron Roberts, Journal of Geophysical Research,115, A12, DOI: 10.1029/2009JA015120.
120. 2010 ÒSPASE 2.0: A Standard Data Model for Space Physics,Ó Todd King, James Thieman, D. Aaron Roberts, Earth Science Informatics, 3.
121. 2010 ÒAlfven Simple Waves: Euler Potentials and Magnetic HelicityÓ, G. M. Webb, Q. Hu, B. Dasgupta, D. A. Roberts, and G. P. Zank, Astrophysical Journal, 725, 2128.
122. 2013 ÒSolar Wind Fluctuations: Not Your GrandmotherÕs Turbulence,Ó D. A. Roberts, Solar Wind 13, AIP Conf. Proc., 1539, 263.
123. 2013 ÒTemperature anisotropy instabilities; combining plasma and magnetic field data at different distances from the Sun,Ó Robert T. Wicks, Lorenzo Matteini, Timothy S. Horbury, Petr Hellinger, and D. Aaron Roberts, Solar Wind 13, AIP Conf. Proc. 1539, 303.
123. 2012 ÒConstruction of Solar-Wind-Like Magnetic Fields,Ó D. A. Roberts, Phys. Rev. Lett., 109, 231102.
124. 2012 ÒSimulations of magnetic minimum variance evolution in the solar wind,Ó S. Ghosh and D. A. Roberts, AIP Conf. Series 1436, Heerikhuisen, J. and Li, G. and Pogorelov, N. and Zank, G., eds., pp. 302-305
125. 2013 ÒA multivariate Time Series Classification Method for Streaming Data Using Temporal Metafeature Abstractions,Ó Tamara Sipes, Natash Balac, Homa Karimabadi, Nicole Wolter, Kenneth Nunes, and Aaron Roberts, International Journal of Semantic Computing, 07, 173.
126. 2013 ÒCorrelations at Large Scales and the Onset of Turbulence in the Fast Solar Wind,Ó R. T. Wicks, D. A. Roberts, A. Mallet, A. A. Schekochihin, T. S. Horbury, and C. H. K. Chen, Astrophysical Journal, 778, 177.
127. 2014 ÒThe birdÕs ear view of space physics: Audification as a tool for the spectral analysis of time series data,Ó Robert L. Alexander, Sile OÕModhrain, D. Aaron Roberts, Jason A. Gilbert, and Thomas H. Zurbuchen. Journal of Geophysical Research, Space Physics, 119, 5259Ð5271.
128. 2015 ÒGeneration of magnetic holes in fully kinetic simulations of collisionless turbulenceÓ, V. Roytershteyn, H. Karimabadi, A. Roberts, Phil. Trans. R. Soc. A 20140151.
129. 2015 Boardsen, S. A., L. K. Jian, J. L. Raines, D. J. Gershman, T. H. Zurbuchen, D. A. Roberts, H. Korth, MESSENGER survey of in situ low frequency wave storms between 0.3 and 0.7 AU, Journal of Geophysical Research, Space Physics, 10.1002/2015JA021506.
130. 2016 Wicks, R. T., R. L. Alexander, M. Stevens, L. B. Wilson, Moya, A. F. Vi–as, L. Jian, D. A. Roberts, S. OÕModhrain, J. A. Gilbert, T. H. Zurbuchen, A Proton-cyclotron Wave Storm Generated by Unstabel Proton Distribution Functions in the Solar Wind, Astrophysical Journal, 819.