Daniel Holland
Publications and Presentations
    PUBLICATIONS
    1. R. F. Martin, Jr., D. Delcourt, D. L. Holland and M. J. Asbury, Magnetotail Particle Distributions Associated with Pitch Angle Isotropization, submitted to JASTP 7/99.
    2. D. L. Holland, W. R. Paterson L. A. Frank, S. Kokubun, and Y. Yamamoto, Signatures of Nonlinear Charged Particle Dynamics in Geotail CPI Observations. J. Geophys. Res., 104. 2479, 1999.
    3. Daniel L. Holland, Determination of the Current Sheet Structure Using Geotail CPI, 1998 MIT Symposium and Cambridge Workshop on the Physics of Space Plasmas, Edited by T. Chang.
    4. Daniel L. Holland, James Chen and Alex Agranov, Effects of a Constant Cross-Tail Magnetic Field on the Particle Dynamics in the Magnetotail, J. Geophys. Res., 101, 24997, 1996.
    5. James Chen and Daniel L. Holland, Global Consequences of Nonlinear Particle Dynamics in the Magnetotail, Geophysical Monograph 86, 205, 1995
    6. Glenn Joyce, James Chen, Steven Slinker, and Daniel L. Holland, Particle Energization Near an X-line in the Magnetotail based on Global MHD Fields, J. Geophys. Res., 100, 19167, 1995.
    7. Daniel L. Holland and James Chen, Self Consistent Current Sheet Structures in the Quiet Time Magnetotail, 1993 MIT Symposium and Cambridge Workshop on the Physics of Space Plasmas, Edited by T. Chang and J. R. Jasperse.
    8. James Chen and Daniel L. Holland, Nonlinear Dynamics of Particles in the Magnetosphere: A Tutorial Review, 1993 MIT Symposium and Cambridge Workshop on the Physics of Space Plasmas, Edited by T. Chang and J. R. Jasperse.
    9. Glenn Joyce, James Chen, Steven Slinker, and Daniel L. Holland, Particle Energization Near an X-line in the Magnetotail based on Global MHD Fields, 1993 MIT Symposium and Cambridge Workshop on the Physics of Space Plasmas, Edited by T. Chang and J. R. Jasperse.
    10. Daniel L. Holland and James Chen, A Current Calculation Algorithm for Test Particle Simulations of the Magnetotail, NRL Internal Report #7168
    11. D Walker, D., J. Chen, C. Siefring, D, Duncan, J. Stracka, J. Antoniades, J. Bowles and D. Holland, Nonlinear particle dynamics in the magnetotail; a laboratory study 1. the experimental configuration and numerical simulation, NRL Memorandum #7734
    12. James Chen and Daniel L. Holland, Reply to Burkhart, Spieser and Dusenbery, Phys. Plasmas, , 801, 1994.
    13. Daniel L. Holland and James Chen, Self Consistent Current Sheet Structures in the Quiet Time Magnetotail, Geophys. Res. Lett., 20, 1775, 1993
    14. D. L. Holland, B. D. Fried and G. J. Morales, Sheath Structure in a Magnetized Plasma, Phys. Fluids B, 5, 1723, 1993.
    15. D. L. Holland, B. D. Fried, and G. J. Morales, Non-Neutral Bounded Plasma Equilibria, Phys Fluids B, 5, 1398, 1993.
    16. F. Kazeminejad, J.M. Dawson, J.N. Leboeuf, R. Sydora, and D. Holland, A Vlasov Ion Zero Mass Electron Model for Plasma Simulations, J Comp Phys. 102, 277, 1992.
    17. Daniel L. Holland and James Chen, On Chaotic Conductivity in the Magnetotail, Geophys. Res. Lett., 19, 1231, 1992.
    18. Daniel L. Holland and James Chen, Effects of Collisions on the Nonlinear Particle Dynamics in the Magnetotail, Geophys. Res. Lett., 18, 1579, 1991.
    19. J.W. Van Dam, G.Y. Fu, D. Holland, B.D. Fried, A. Banõs, Analytic Boundary for Resistive Ballooning Stability in the Second Stable Regime, Phys. Fluids B, 2, 2623, 1990.
    20. D. L. Holland, The Magnetized Plasma Sheath, Doctoral Dissertation, University of California, Los Angeles (1990).
    21. D. L. Holland, A Treatise on the Hermite Polynomials, Masters Thesis, Lamar University (1981).


    RESEARCH PRESENTAIONS
    (*indicates student co-author)

    1. Daniel Holland, An Analytic Estimation of the Role of Plasma Diamagnetism in Current Sheet Formation, AGU Fall Meeting Paper SM41B-29, San Francisco, CA, Dec. 1999.
    2. Richard Martin and Daniel Holland, Distribution Function Structuring by Centrifugal Impulse in a Magnetic Field Reversal, APS Centennial Meeting, Paper PP01.124, Mar. 1999.
    3. *Daniel Holland and James Woods, Determination of the magnetotail current sheet topology using Geotial CPI data, APS Centennial Meeting, Paper PP01.125, Mar. 1999.
    4. *Rebecca Braynard and Daniel Holland, The Effects of Sheath Structures on the Ion Impact Distribution in Magnetized Plasmas, APS Centennial Meeting, Paper RP01.139, Mar. 1999.
    5. *Daniel Holland and Rebecca Braynard, The Effects of Sheath Structures on Plasma Ion Impact Distributions in Obliquely Incident Magnetized Plasmas. APS-DPP Post deadline paper 9U35, Nov. 1998.
    6. *Rebecca Braynard and Daniel Holland Determination of the Current Sheet Structures Using Geotail CPI Data. APS-DPP Post deadline paper 9U35, Nov. 1998.
    7. Daniel Holland Determination of the Magnetotail Current Sheet Structures Using Geotail CPI Data. 1998 NASA-JOVE Retreat, Cocoa Beach Florida, July, 1998.
    8. Daniel Holland, Ion Distribution Function Signatures of Global Magnetic Field Structures, 1998 MIT Symposium and Cambridge Workshop on the Physics of Space Plasmas 6/98.
    9. D. L. Holland, W.R. Paterson and L. A. Frank, Observational Signatures of Global Magnetospheric Structures in Geotail Satellite Data, EOS, 77, F625, (1996).
    10. *D. L. Holland and P. W. Valek, Equilibrium Structure of the PSBL Lobe Interface, EOS, 77, 253, (1996).
    11. *D. L. Holland and D. J. King, Distribution Function Signatures of the Global Topology of the Quiet-Time Magnetotail. Bull. Am. Phys. Soc., 40, 1844, 1995.
    12. D. L. Holland, J. Chen, Effects of a Constant Cross-Tail Magnetic Field on the Particle Dynamics in the Magnetotail, EOS, 76, 245, 1995.
    13. *D. J. King, D. L. Holland, and J. Chen, Characterization of Collisional Effects on Magnetotail Particle Dynamics, EOS, 76, 246, 1995.
    14. *P. W. Valek and D. L. Holland, A Finite b , Kinetic Equilibrium Model of the PSBL, Bull. Am. Phys. Soc., 39, 1719, (1994).
    15. *S. W. Powell and D. L. Holland, Sheath Structure in a Weakly Magnetized Plasma, Bull. Am. Phys. Soc., 39, 1758, (1994).
    16. D. L. Holland, P. J. Cargill, J. Chen, and J. B. Harold, Hybrid Simulations of B Fields in the Magnetotail, EOS, 75, 302, 1994.
    17. *P. W. Valek and D. L. Holland, A Finite b , Kinetic Equilibrium Model of the PSBL, EOS, 75, 302, 1994.
    18. J. Chen, J. B. Harold, D. L. Holland and A.T.Y. Lui, Kinetic Coupling of the Auroral Region and the Near-Earth Current Sheet, EOS, 75, 302, 1994.
    19. G. Joyce, J. Chen, D. L. Holland and S. P. Slinker, Particle Acceleration in the Magnetotail using the NRL Global Simulation Model, EOS, 74, 519, 1993.
    20. D. N. Walker, J. Bowles, C. L. Siefring, D. Holland, J. Chen and B. H. Ripin, Nonlinear Particle Dynamics in the Magnetotail, Laboratory Study Results, EOS, 74, 519, 1993.
    21. P. J. Cargill, J. Chen and D. L. Holland, Hybrid Simulations of the Magnetotail Current Sheet, EOS, 74, 519, 1993.
    22. J. B. Harold, J. Chen, and D. L. Holland, On the Parametrization of Chaotic Particle Dynamics in the Magnetotail, EOS, 74, 519, 1993.
    23. D. L. Holland and J. Chen, Self-Consistent Current Sheet Structures in the Quiet Time Magnetotail, EOS, 74, 519, 1993.
    24. D. L. Holland and J. Chen, Kinetic Structure of the Quiet-Time Magnetotail Current Sheet, Bull. Am. Phys. Soc., 38, 2018, (1993).
    25. D. N. Walker, J. Bowles, C. L. Siefring, D. Holland, J. Chen and B. H. Ripin, A Nonlinear Particle Dynamics Laborratory Study, Bull. Am. Phys.Soc., 38, 1965, (1993).
    26. J. Chen and D. L. Holland, On the Parametrization of Chaotic Particle Motion in the Magnetotail, 1993 MIT Symposium and Cambridge Workshop on the Physics of Space Plasmas.
    27. D. N. Walker, J. Bowles, C. L. Siefring, D. Holland, J. Chen and B. H. Ripin, Early Laboratory Results of a Nonlinear Particle Dynamics Study, 1993 MIT Symposium and Cambridge Workshop on the Physics of Space Plasmas.
    28. D. L. Holland and J. Chen, Self-Consistent Current Sheet Structures in the Quiet Time Magnetotail, EOS, 74, 276, 1993.
    29. D. N. Walker, J. Bowles, C. L. Siefring, D. Holland, J. Chen and B. H. Ripin, Nonlinear Particle Dynamics in the Magnetotail; A Laboratory Study, EOS, 74, 276, 1993.
    30. G. Joyce, J. Chen, D. L. Holland and S. P. Slinker, Kinetic Current Sheet Structures in the Quiet Time Magnetotail, EOS, 74, 268, 1993.
    31. D. L. Holland and J. Chen, Self-Consistent Current Sheet Structures in the Quiet Time Magnetotail, EOS, 73, 468, 1992.
    32. J. Chen and D. L. Holland, Phase Space Structures and Distribution Function Signatures in Self-Consistent Magnetic Fields, EOS, 73, 469, 1992.
    33. *A. Agranov, C. Choi, D. L. Holland and J. Chen, Effects of By and Nonlinear Field Reversals on Particle Dynamics in the Magnetotail, EOS, 73, 469, 1992.
    34. G. Joyce, D. L. Holland, J. Chen and S. Slinker, Comparison of MHD and Kinetic Current Sheet Structures in the Quiet Time Magnetotail, EOS, 73, 469, 1992.
    35. D. L. Holland and J. Chen, Self-Consistent Current Sheet Structures in the Quiet Time Magnetotail, Bull. Am. Phys. Soc., 37, 1371, (1992).
    36. D. L. Holland and J. Chen, Nonlinear Dynamics and Current Sheet Acceleration of Ions in the Magnetotail, Chapman Conference on Micro and Meso Scale Phenomena in Space Plasmas, (1992)
    37. D. L. Holland and J. Chen, Effects of Collisions on the Nonlinear Particle Dynamics in the Magnetotail, EOS, 72, 412, (1991).
    38. J. Chen and D. L. Holland, Nonlinear Dynamics and Current Sheet Acceleration of Ions in the Magnetotail, EOS, 72, 425, (1991).
    39. D. L. Holland and J. Chen, Effects of Collisions on the Nonlinear Particle Dynamics in the Magnetotail, Bull. Am. Phys. Soc., 36, 2384, (1991).
    40. D. L. Holland and J. Chen, Collisional Effects on the Nonlinear Particle Dynamics in the Magnetotail, 1991 Cambridge Workshop in Theoretical Geoplasma Physics.
    41. D. L. Holland and J. Chen, Collisional Effects on the Nonlinear Particle Dynamics in the Magnetotail, EOS, 72, 243, (1991).
    42. D. Holland and J. Chen, Stochastic Particle Dynamics in the Magnetotail, EOS,71, 1551, (1990).
    43. D. L. Holland and B.D. Fried, Obliquely Incident Magnetized Plasma Sheath, Bull. Am. Phys. Soc. 35, 2093, (1990).
    44. J.W. Van Dam, G.Y. Fu, D. Holland, B.D. Fried, and A Banõs. Analytic Boundary for Resistive Ballooning Stability in the Second Stable Regime, 1990 Sherwood Theory Conference.
    45. D. Holland and B.D. Fried, Magnetized Plasma Sheath Model, Bull. Am. Phys. Soc. 34, 2026 (1989).
    46. B.D. Fried, H. Ramachandran, D. Holland, G.J. Morales, and M.A. Reynolds, Transport Characteristics of an Imperfectly Confined Plasma Subjected to External Biasing, Bull. Am. Phys. Soc. 34, 2084 (1989).
    47. D. Holland, B.D. Fried, and G.J. Morales, Cross-Field Sheath in a Magnetized Plasma, 1988 Sherwood Theory Conference.
    48. D. Holland and B.D. Fried, Cross-Field Sheath in a Magnetized Plasma, Bull. Am. Phys. Soc. 32, 1942 (1987).
    49. D. L. Holland and B. D. Fried, Nonlocal Analysis of Electrostatic ICRF Waves in a Bounded Plasma Slab, Bull. Am. Phys. Soc. 31, 1402 (1986).
    50. D. Holland, R.D. Ferraro and B.D. Fried, ICRF Waves in Bounded Cylindrical Hot Plasmas, Bull. Am. Phys. Soc. 30, 1367 (1985).


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