/UAH / CSPAAR / S. T. Wu

Publications

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Space Sciences

Solar and Interplanetary Physics

Journal Publications

  1. Correlation between Solar Wind and ap, G. A. Germany, S. T. Wu, P. G. Richards, A.-H. Wang, T. X. Zhang, M. Cuntz, J. Geophysical Research Letters, 2001, (submitted).
  2. Three-Dimensional Numerical Simulation of MHD Waves Observed by the Extreme Ultraviolet Imagining Telescope, S. T. Wu, H. Zheng, S. Wang, B. J. Thompson, S. P. Plunkett, X. P. Zhao, and M. Dryer, J. Geophysical Research, 106(A11) 25089-25102, 2001.
  3. Descriptions Of Coronal Streamer Structures During The Rising Phase Of Cycle 23, M. Andrews and S. T. Wu, invited presentation at the COSPAR Colloquium on "Space Weather Study Using Multi-point Techniques" held at Pacific Green Bay on September 27-29, 2000, COSPAR Colloquia series, 2001, (in press).
  4. Numerical Magnetohydrodynamic (MHD) Modeling of Coronal Mass Ejections (CMEs), S. T. Wu, M. D. Andrews, and S. P. Plunkett, Special Issue "Challenge to Long-Standing Unsolved Space Plasma Problems in the 20th Century, Space Science Review, 95, 191-213, 2001.
  5. Evolution of Global Scale Coronal Magnetic Field Due to Magnetic Reconnection: The Formation of the Observed Blob Motion in the Coronal Streamer Belt , S. T. Wu, A. H. Wang, S. P. Plunkett, and D. J. Michels, Astrophysical Journal, 545, 1101-1115, 2000.
  6. Coronal Mass Ejections (CMEs) Initiation: Models and Observations, S. T. Wu, W. P.Guo, S. P. Plunkett, B. Schmieder and G. M. Simnett, Journal of Atmospheric and Solar Terrestrial Physics, 62, 1489-1498, 2000.
  7. Coronal Mass Ejections (CMEs) and Their Geoeffectiveness, S. P. Plunkett and S. T. Wu, IEEE Transactions of Plasma Science, 28,(6) 1807-1817, 2000.
  8. Analyses and Modelling of Coronal Holes Observed by CORONAS-I. Morphology and Magnetic Field Configuration, V. Obridko, V. Fomichev, A. F. Kharshiladze, I. Zhitnik, V. Slemzin, D. Hathaway, and S. T. Wu, Astronomical and Astrophysical Transactions, 18(6), 819-828, 2000.
  9. Simultaneous SOHO and Ground-Based Observations of a Large Eruptive Prominence and Coronal Mass Ejection, S. P. Plunkett, A. Vourlidas, S. Simberova, M. Karlicky, P. Kotrc, P. Heinzel, Yu. A. Kupryakov, W. P. Guo and S. T. Wu, Solar Physics, 194, 321-391, 2000.
  10. Magnetohydrodynamic Simulation of Small and Global Scale Reconnection Processes, S. T. Wu, S. Wang, and H. Zheng, Advances Space Research, 259, 2000.
  11. Observations and Modeling of an Explosive Coronal Mass Ejection as Observed by LASCO, M. D. Andrews, A.-H. Wang, and S. T. Wu, Solar Physics, 187, 427-446, 1999
  12. Streamer Evaporation, S. T. Suess, A.-H. Wang, S. T. Wu and S. F. Nerney, Space Science Review, 87, 323-326, 1999.
  13. MHD Description of the Dynamical Relationships between a Flux-Rope, Streamer, Coronal Mass Ejection (CME) and Magnetic Cloud: An Analysis of the 1997 January Sun-Earth Connection Event, S. T. Wu, W. P. Guo, D. J. Michels, and L. F. Burlaga, J. Geophysical Research, 104(A7), 14,789-14,801, July 1999.
  14. A Two-Fluid, MHD Coronal Model, S. T. Suess, A.-H. Wang, S. T. Wu, G. Poletto, and D. J. McComas, J. Geophysical Research, 104(A3), 4697, 1999.
  15. Generation and Propagation of Solar Disturbances: A Magnetohydrodynamic Simulation, S. T. Wu, W. P.Guo, J. of Atmospheric and Solar-Terrestrial Physics, 61, 1999.
  16. Magnetic Cloud Field Intensities and Solar Wind Velocities, W. D. Gouzalez, A. L. Clúa de Gonzalez, A. Dal Lago, B. T. Tsurutani, J. K. Arballo, G. K. Lakina, B. S. Buti, C. M. Ho, S. T. Wu, J. Geophysical Research Letter, 25(7), 963-966, 1998.
  17. Global Magnetohydrodynamic (MHD) Simulation of the On-Set of Coronal Mass Ejections (CMEs), S. T. Wu and W. P. Guo, Physics of Space Plasmas, 15, 357, 1998.
  18. A Magnetohydrodynamic Description of Coronal Helmet Streamers Containing a Cavity, W. P. Guo and S. T. Wu, Astrophysical Journal, 494, 419-429, 1998.
  19. The Geometric Speading of Coronal Plumes and Coronal Holes, S. T. Suess, G. Poletto, A. H. Wang, S. T. Wu, and I. Cuseri, Solar Physics, 180, 231-246, 1998.
  20. Dynamical Evolution of a Coronal Mass Ejection (CME) to Magnetic Cloud: A Preliminary Analysis Of the January 6-10, 1997 CME observed by LASCO/SOHO, S. T. Wu, W. P. Guo, D. J. Michels, M. D. Andrews, G. E. Brueckner, R. A. Howard, M. J. Koomen, C. M. Korendyke, J. D. Moses, D. G. Socker, K. P. Dere, Jean-Louis Bougeret, P. L. Lamy, R. Schwenn and G. M. Simnett, Proceedings 5th SOHO Workshop, ESA SP-404, The Corona and Solar Wind Near Minimum Activity, 739-744, 1997.
  21. Analysis and Modeling of Coronal Holes Observed by Coronas-I: II. MHD Simulation, A. H. Wang S. T. Wu, M. Dryer, D. Hathaway, V. Obridko, V. Fomichev, A. F. Kharshiladze, L. Zhitnik and V. Slemzin, Proceedings of the Third SOLTIP III Symposium, October 14-18, 1996, Beijing, China, X. S. Feng, F. S. Wei and M. Dryer (eds) 273-278, International Academic Publishers, 1998.
  22. Global Model of the Corona with Heat and Momentum Addition, A. H. Wang, S. T. Wu, S. T. Suess, G. Poletto, J. Geophysical Research, 103, A2, 1913-1922, Feb., 1998.
  23. MHD Interpretation of LASCO Observations of a Coronal Mass Ejection as a Disconnected Magnetic Structure, S. T. Wu, W. P. Guo, M. D. Andrews, G. E. Brueckner, R. A. Howard, M. J. Koomen, C. M. Korendyke, D. J. Michels, J. D. Moses, D. G. Socker, and K. P. Dere, P. L. Lamy, A. Liebaria, and M. V. Bout, R. Schwenn, G. M. Simnett, D. K. Bedford, and C. J. Eyles, Solar Physics, 175, 719-735. 1997.
  24. Inferences on Coronal Magnetic Fieldsfrom SOHO UVCS Observations, G. Poletto, M.Romoli, S. T. Suess, A. H.Wang, S. T. Wu, (Special Issue) Solar Physics, 174, 53-63, 1997.
  25. Dr. Chung-Chieh Chung's Contributions to Coronal Physics, S. T. Wu, Advances Space Research, 20(12), 2381, 1997.
  26. Numerical MHD Modeling of the Solar Driver for the Destabilization of a Coronal Helmet Streamer, S. T. Wu, and W. P. Guo, Advances Space Research, 20(12), 2313-2318, 1997.
  27. A Self-Consistent Numerical MHD Model of Helmet Streamer and Flux Rope Interactions: Initiation and Propagation of Coronal Mass Ejections (CMEs), S. T. Wu and W. P. Guo, Chapman Conference on Coronal Mass Ejections, Bozeman, Montana, August 11-15, 1996, in Geophysical Monograph 99, Coronal Mass Ejections, pp. 83-89, (N. Crooker, J. Joslyn, J. Feynman, eds.) American Geophysical Press, Washington, DC, 1997.
  28. Dynamical Evolution of a Coronal Streamer-Flux Rope System: II. A Self-Consistent Non-Planar Magnetohydrodynamics Simulation, Wu, S. T., W. P. Guo, and M. Dryer, Solar Physics, 170, 265, 1997.
  29. Recipe for Predicting the IMF Bz Polarity's Change of Direction Following Solar Disturbances and at the Onset of Geomagnetic Storms, C. C. Wu, M. Dryer, Z. Smith, S. T. Wu, and L. H. Lyu, J. of Atmospheric and Terrestrial Physics, 58(15), 1805, 1996.
  30. Prediction of Solar-Flare-Caused Geomagnetic Storms, C. C. Wu, M. Dryer, Z. Smith, S. T. Wu, and L-H. Lyu, Terrestrial, Atmospheric and Oceanic Sciences, 7(2), 179, June 1996.
  31. Propagation of MHD Body and Surface Waves in Magnetically Structured Regions of the Solar Atmosphere, S. T. Wu, Y. C. Xiao, Z. E. Musielak and S. T. Suess, Solar Physics, 163, 291, 1996.
  32. Three-Dimensional MHD Simulation of Interplanetary Magnetic Field Changes at 1 AU as a Consequence of Simulated Solar Flares, C. C. Wu, M. Dryer, and S. T. Wu, Annales Geophysicae, 14, 383, 1996.
  33. Generation and Evolution of Interplanetary Slow Shocks, C.C. Wu, S.T. Wu, and M. Dryer, Annales Geophysicae, 14, 375-382, 1996.
  34. Self-Similar Magnetohydrodynamic Solution for the Dynamics of Magnetic Flux Emergence, M.T. Song, S.T. Wu, and H.C. Zhang, Solar Physics, 167, 55, 1996.
  35. Volumetric Heating in Coronal Streamers, S.T. Suess, A.-H Wang, and S.T. Wu, J. Geophysical Research, 101(A9), 19,957, Sept. 1996
  36. Disruption of Helmet Streamers by Current Emergence, W.P. Guo, S.T. Wu, and E. Tandberg-Hanssen, Astrophysical Journal, 469, 944, Oct. 1996.
  37. Propagation of MHD Body and Surface Waves in Magnetically Structured Regions of the Solar Atmosphere, S.T. Wu, Y.C. Xiao, Z.E. Musielak, and S.T. Suess, Solar Physics, 163, 291, 1996.
  38. Coronal Structure and Heating: Comparison Between SXT/YOKOH Observations of An Active Region and Magnetogram, C.-C. Cheng, K.P. Dere, S.T. Wu, M.J. Hagyard, and E. Hiei, Advances Space Research, 17(4/5), 205, 1996.
  39. The Role of Magnetohydrodynamic (MHD) Processes in Solar Plasma Dynamics, S.T. Wu and M. Dryer, Physics of Space Plasmas (1995), Proceedings of the 1995 Cambridge Symposium/Workshop in Geoplasma Physics on "Multiscale Phenomena in Space Plasmas" Bermuda, Feb. 1995, Vol. 14, pp 609-626, (T. Chang and J. R. Jasperse, eds.) MIT Center for Theoretical Geo/Cosmo Plasma Physics, 1996.
  40. MHD Modeling of the Solar Wind- Magnetosphere Energy Coupling Function, S. T. Wu, C. C. Wu, M. Dryer, and C. D. Fry, 2nd SOLTIP Symposium, Japan 1994, STEP GBRSC News (special issue), 5, 283, June 1995.
  41. Dynamical Evolution of a Coronal Streamer-Bubble System, I. A Self-Consistent, Planar Magneto-hydrodynamic Simulation, S.T. Wu, W.P. Guo, and J. F. Wang, Solar Physics, 157, 325, 1995.
  42. Numerical Simulation of Slow Shock in the Solar Wind, C.C. Wu, J.K.Chao, S.T. Wu, and M. Dryer, Solar Physics, 165, 377, 1995.
  43. Numerical Modeling of CMEs Based on Various Pre-Event Model Atmospheres, A.-H. Wang, S. T. Suess, S. T. Wu, and G. Poletto, Solar Physics, 161, 365, 1995.
  44. Magnetohydrodynamic Simulation of a Streamer Beside a Realistic Coronal Hole, S. T. Suess, S. T. Wu, A. H. Wang, and G. Poletto, Space Science Review, 70, 295, 1994.
  45. Interpretation of Magnetic Field Structures of AR 6659 in June 7-10, 1991, S. T. Wu, F. S. Weng, M. J. Hagyard, M. Macahado and B. Schmieder, IAU Colloquium 144 Solar Coronal Structures, 1994, V. Rusin, P. Heinzel and J.-C, Vial (eds.) 201-205, The Slovak Republic, 1994.
  46. Numerical Simulation of CME Propagation in a Helmet Streamer: Emerging Magnetic Flux Mechanism, J. H. Zhang, S. T. Wu, M. Dryer and F. S. Wei, IAU Colloquium 144 Solar Coronal Structures, 1994, V. Rusin, P. Heinzel and J.-C, Vial (eds.), 91-95, The Slovak Republic, 1994
  47. Coronal Heating Due to the Emergence of Magnetic Flux, S. T. Wu, M. T. Song, C. C. Cheng, and M. Dryer, Space Science Review, 70, 167, 1994.
  48. A Two-Dimensional MHD Global Coronal Model: Steady-State Streamers, A. H. Wang, S. T. Wu, S. T. Suess, and G. Poletto, Solar Physics, 147, 55, 1993.
  49. L_alpha Intensity in Coronal Streamers, G. Noci, G. Poletto, S. T. Suess, A. H. Wang, and S. T. Wu, Solar Physics, 147, 73, 1993.
  50. Magnetohydrodynamic Simulation of the Evolution of Bipolar Magnetic Regions, S. T. Wu, C. L. Yin, P. McIntosh, E. Hildner, IAU Colloquium 141, ASP Conference Series, The Magnetic and Velocity Fields of Solar Active Regions, Vol. 46, pp. 98-107, H. Zirin, G. Ai, H. Wang (eds.), 1993.
  51. Numerical Modeling of the Energy Storage and Release in Solar Flares, S. T. Wu and F. S. Weng, presented at the U.S. -Taiwan Bilateral Workshop on Solar Variability Effects on the Atmosphere and Space Processing, Taipei, Taiwan, April 15-17, 1991, in Journal of Atmospheric and Terrestrial Physics, 55(7), 939-946, June 1993.
  52. Magnetic Structures and Energy of 1989 March Flares, S. T. Wu, F. S. Weng, H. M. Wang, H. Zirin, and G. X. Ai, presented at XXVIX COSPAR Plenary Meeting and Associated Activities, World Space Congress, Washington, DC, August 1992 in Advances Space Research, 9, 127, 1993
  53. Magnetic Diffusion and Flare Energy Buildup, S. T. Wu, C. L. Yin, and W.-H. Yang, Solar Physics, 142, 313, 1992.
  54. MHD Non-Equilibrium: A Numerical Experiment, P. Martens, M. T. Sun and S. T. Wu, in Eruptive Solar Flares, pp 66-68, (Z. Svestka, B. V. Jackson and M. E. Machado, eds.) IAU Colloquium No. 133, Springer Verlag, 1992.
  55. A Numerical Simulation of Magnetically Driven Coronal Mass Ejections, W. P. Guo, J. F. Wang, B. X. Liang, and S T. Wu, in Eruptive Solar Flares, pp 381-384, (Z. Svestka, B. V. Jackson and M. E. Machado, eds.), IAU Colloquium No. 133, Springer-Verlag, 1992.
  56. The Intrinsic Relationship Between Flares and Eruption of Filament Currents, S. T. Wu and A. A. Xu, in Eruptive Solar Flares, pp 55-58, (Z. Svestka, B. V. Jackson and M. E. Machado, eds.), IAU Colloquium No. 133, Springer-Verlag, 1992.
  57. Coronal Heating Through Lack of MHD Equilibrium, P. Martens, M. T. Sun and S. T. Wu, OSL Workshop, Capri, 1992
  58. A Two-Dimensional MHD Global Coronal Model: Steady-State Streamers, A.-H. Wang, S. T. Wu, S. T. Suess and G. Poletto, Solar Wind VII, p 311-314, 1992
  59. Forecasting the Arrival of the Fast Coronal Mass Ejecta at Earth by the Detection of 2-20 keV Neutral Atoms, K. C. Hsieh, K. L. Shih, D. J. McComas, S. T. Wu and C. C. Wu, SPIE Conference Paper, 1993
  60. Magnetohydrodynamic Simulation of a Streamer beside a Realistic Coronal Hole, S. T. Suess, S. T. Wu, A.-H. Wang, and G. Poletto, Proceedings of the 26th ESLAB Symposium, 'Study of the Solar-Terrestrail System' Killarney, Ireland, June 16-19, 1992, ESA SP346, September 1992
  61. Heliospheric Current Sheet Effects on the Propagation of the Solar Flare-Generated Disturbances, M. Dryer, S. T. Wu, and S. M. Han, in Proceedings of the 26th ESLAB Symposium on Study of the Solar-Terrestrial System, (R. Reinhard, ed.), pp 77-79, Killarney, Ireland, 16-19 June 1992.
  62. Three-Dimensional Numerical Simulation of Interplanetary Magnetic Field Changes at 1 AU as a Consequence of Simulated Solar Flares, S. T. Wu, C. C. Wu and M. Dryer, in Proceedings of the 26th ESLAB Symposium on Study of the Solar-Terrestrial System, (R. Reinhard, ed.), pp 333-336, Killarney, Ireland, 16-19 June 1992.
  63. Predicting Ly-alpha Intensities in Coronal Streamers, G. Noci, G. Poletto, S. T. Suess, A. H. Wang and S. T. Wu, Proceedings of the First SOHO Workshop, Annapolis, Maryland, 25-28 August 1992, EAS SP-348, pp. 93-96, November 1992.
  64. Ly-alpha Radiation from Coronal Transients, D. Spadaro, R. Ventura, R. Martin, S. T. Wu and A. H. Wang, Proceedings of the First SOHO Workshop, Annapolis, MD, 25-28 August, 1992. ESA SP-348, pp. 105-108, November 1992.
  65. The Solar/Stellar Coronal Explorer and the Solar/Stellar Coronal Observatory, A. B. C. Walker, Jr., J. F. Lindblom, J. G. Timothy, T. W. Barbee, Jr., R. B. Hoover, E. Tandberg-Hanssen, S. T. Wu and J. Sahade, SPIE Paper No. 1546-32, 1991.
  66. Model Calculations of Rising Motions of Prominence Loops, T. Yeh and S. T. Wu, Solar Physics, 132, 335, 1991.
  67. Shear Induced Instability and Arch Filament Eruption: A Magnetohydrodynamic (MHD) Numerical Simulation, S. T. Wu, M. T. Song, P. C. H. Marten, and M. Dryer, Solar Physics, 134, 353, 1991.
  68. Numerical Simulation of Extended Corona, S. T. Wu and A. H. Wang, Invited Paper, COSPAR Symposium S.9 "Space Observations of the Solar Corona and the Origin of the Solar Wind", The Hague, The Netherlands, June 27-29, 1990, in J. of Advances in Space Research, 11(1), (1)187, 1991.
  69. A Time-Dependent, 3-D MHD Numerical Study of Interplanetary Magnetic Draping Around Plasmoids in the Solar Wind, T. R. Detman, M. Dryer, T. Yeh, S. M. Han, S. T. Wu, and D. J. McComas, J. Geophysical Research, 92(A6), 9531, June 1991.
  70. The Advanced Solar Observatory, A. B. C. Walker, Jr., W. Bailey, E. L. Chupp, H. S. Hudson, R. Moore, W. Roberts, R. B. Hoover, and S. T. Wu, Proceedings SPIE, 1235, 1990.
  71. Two-Dimensional Magnetohydrodynamic Equilibrium in the Solar Corona, S. Wang, S. T. Wu and A. H. Wang, Chinese Journal of Space Science, 11(2), 81, 1990.
  72. Numerical Simulations of Solar Disturbances and Their Interplanetary Consequences, M. Dryer, S. T. Wu, T. R. Detman, Invited Paper, IAU Symposium No. 142, "Basic Plasma Processes on the Sun", (E. Priest, and V. Krishan, Eds.,) Kluwer Publ. Co., Dordrecht, pp 331-349, 1990.
  73. On the Numerical Computation of Nonlinear Force-Free Magnetic Fields, S. T. Wu, M. T. Sun, H. M. Chang, M. J. Hagyard, and G. A. Gary, Astrophysical Journal, 362, 698, 1990.
  74. The Role of Condensation and Heat Conduction in the Formation of Prominences: A NonIdeal MHD Simulation, S. T. Wu, J. J. Bao, C. H. An, E. Tandberg-Hanssen, Solar Physics, 125, 277, 1990.
  75. Three-Dimensional, Time-Dependent MHD Simulations of Interplanetary Plasmoids, M. Dryer, T. R. Detman, S. T. Wu, and S. M. Han, Advances in Space Research, 9(4), (4)75, 1989.
  76. Magnetohydrodynamic Instabilities in Coronal Arcades. C.-H. An, S. T. Suess, and S. T. Wu. Astrophysical Journal, 337, 989, 1989.
  77. Soliton and Strong Langmuir Turbulence in Solar Flare Processes. S. T. Wu, M. T. Song, and M. Dryer, Astrophysics and Space Science, 152, 287, 1989.
  78. Flux Rope Dynamics For Coronal Interplanetary Coupling, T. Yeh and S.T. Wu, EOS, 69(44), 454, 1988.
  79. Application of Similitude Principles to the Numerical Simulation of Solar Atmospheric Dynamics, S. T. Wu, S. Wang, A. H. Wang and M. Dryer, COSPAR XXVII Plenary Meeting and Associated Activities Workshop No. XV, Paper # XV.2.P.11, Helsinki, Finland, July 18-29, 1988, Advances in Space Research, 8(11) 221, Pergamon Press PLC, 1988.
  80. The Observable Characteristics of Flare Energy Release. II. High-Speed Soft X-Ray Fronts, M. Machado, Y. C. Xiao, S. T. Wu, Th. Prokakis and D.Dialetis, Astrophysical Journal, 326, 451, 1988.
  81. Numerical Simulation of Mass Injection for the Formation of Prominence Magnetic Field Configurations. II. Symmetric Injection, C.-H. An, J. J. Bao, S. T. Wu, and S. T. Suess, Solar Physics, 115, 93, 1988.
  82. The Effect of Solenoidal Condition on the Numerical Magnetohydrodynamic Simulation of Coronal Dynamics, S. T. Wu, M. Dryer, and R. S. Steinolfson. Astrophysical Journal, 333, 386, 1988.
  83. MHD Simulation of Mass Injection: A Mechanism for the Formation of Active Region Loops, C. C. Cheng and S. T. Wu, Presented at the XXVII COSPAR Plenary Meeting, Espoo, Finland, July 18-29, 1988, Advances Space Research, 8(11), (11)215, 1988.
  84. On the Onset of Eruptive Prominences and Coronal Transients, G. Simon, N. Mein, B. Schmieder, E. Tandberg-Hanssen and S. T. Wu, in 10th European Regional Astronomical Meeting of the IAU, Prague, Czechoslovakia, August 24-29, 1987, (Ladislav Hejna & Michal Sobotka eds.) Publication #66, Vol. 1, Astronomical Institute of the Czechoslovak Academy of Sciences. 1988.
  85. The Role of Magnetohydrodynamics in Heliospheric Space Plasma Physics Research, M. Dryer, Z. K. Smith, and S. T. Wu, Astrophysics and Space Science, Hannes Alfven 80th Birthday Issue, 144, 407, 1988.
  86. Expected IPS Variations Due to a Disturbanced Described by a 3-D MHD Model, S. J. Tappin, M. Dryer, S. M. Han, and S. T. Wu, Planetary and Space Science, 36(11), 1155, 1988.
  87. Numerical Simulation of Mass Injection for the Formation of Prominence Magnetic Field Configurations, I. Asymmetric Injection, C.-H. An, J. J. Bao, and S. T. Wu, Solar Physics, 115, 81, 1988.
  88. The Observed Characteristics of Flare Energy Release II. The Interpretation of High Speed Soft X-ray Fronts, M. E. Machado, Y. C. Xiao, and S. T. Wu, Astrophysical Journal, 326, 451, 1988.
  89. A Three-Dimensional, Time-Dependent Numerical Modeling of Super-Sonic, Super-Alfvenic MHD Flow, S. M. Han, S. T. Wu and M. Dryer, Computers and Fluids, 16, 81, 1987.
  90. Numerical Simulation of Flare Energy Build-up and Release via Joule Dissipation, S. T. Wu, J. J. Bao, and J. F. Wang, Advances Space Research, 6(6), 5356, 1987.
  91. A Linear MHD Instability Analysis of Solar Mass Ejections with Gravitation, M. T. Song, S. T. Wu, and M. Dryer, Solar Physics, 108, 347, 1987.
  92. The Method of Projected Characteristics for the Evolution of Magnetic Arches", Y. Nakagawa, Y. Q. Hu, and S. T. Wu, Astronomy and Astrophysics, 179, 354, 1987.
  93. MHD Simulation of the "Geoeffectiveness" of Interplanetary Disturbances", M. Dryer, Z. K. Smith, S. T. Wu, S. M. Han, and T. Yeh, Solar Wind-Magnetosphere Coupling, (Y. Kamide and J. A. Slavin, eds.,) Terra Scientific Pulbishing Company, Tokyo, pp 191-207, 1986.
  94. S. - Japan Heliomagnetosphere Seminar, Meeting Report, EOS, 67(3), 34, 1986.
  95. Magnetohydrodynamics (MHD) Modelling of Flare Energy Buildup, The Energy Release Phase, and Its Propagation into Heliospheric Space, S. T. Wu and S. Panitchob, Solar Maximum Analysis, (V. E. Stepanov and V. N. Obridko, eds.), pp 393-404, VNU Science Press, Utrecht, The Netherlands, 1986.
  96. Induced Mass and Wave Motions in the Lower Solar Atmosphere. II. Effects of Converging and Diverging Photospheric Motions, S. T. Wu, Y. Q. Hu, Y. Nakagawa, and E. Tandberg-Hanssen, Astrophysical Journal, 306, 751, 1986.
  97. Summary of U. S. - Japan Seminar, "Recent Advances in the Understanding of Structure and Dynamics of the Heliomagnetosphere during the Current Maximum and Declining Phase of Solar Activity" S. T. Wu and T. Kakinuma, Solar Terrestrial Environmental Research in Japan, Vol. 9, December 1985
  98. MHD Analysis of the Evolution of Solar Magnetic Fields and Currents in an Active Region, S. T. Wu, J. F. Wang, and E. Tandberg-Hanssen, in Unstable Current Systems and Plasma Instabilities, IAU #107, M. R. Kundu and D. G. Holman eds.), Astrophysics, pp 487-490, 1985.
  99. Comments on "Density Distribution in Looplike Coronal Transients" A Comparison of Observations and a Theoretical Model", by D. G. Sime, R. M. MacQueen, and A. J. Hundhausen, M. Dryer and S. T. Wu, J. Geophysical Research, 90(A1), 1985.
  100. On the Heating Mechanism of Magnetic Flux Loops in the Solar Atmosphere, S. T. Wu and M. T. Song, 1984, Advances Space Research, 4(7), 275, 1985.
  101. Inhibition of Conduction Heat Flow by Magnetic Constriction in the Corona and Transition Region: Dependence on the Shape of the Constriction, J. F. Dowdy, Jr., R. L. Moore, and S. T. Wu, Solar Physics, 98, 79, 1985.
  102. Numerically-Simulated Formation and Propagation of Interplanetary Shocks, (invited) 1984, in Computer Simulation of Space Plasma, p. 179, (H. Matsumato and T. Sato, eds.) D. Reidel/Terra Publishing Co., 1985
  103. Interplanetary Disturbances Produced by a Simulated Solar Flare and EquoriallyFluctuating Heliospheric Current. G. Gislason, M. Dryer, Z. K. Smith, S. T. Wu, and S. M. Han. Astrophysics and Space Science, 98 149, 1984.
  104. Modeling of Energy Buildup for a Flare-Productive Region. S. T. Wu, Y. Q. Hu, K. R. Krall, M. J. Hagyard, and J. B. Smith, Jr., Solar Physics, 90, 117, 1984.
  105. MHD Modelling of Solar Active Phenomena Via Numerical Methods. S. T. Wu. Special Issue of Solar Physics, 1984.
  106. Magnetohydrodynamic Modeling of Interplanetary Disturbances Between the Sun and Earth, S. T. Wu, M. Dryer, G. Gislason, S. M. Han, Z. K. Smith, J. F. Wang, D. F. Smart and M. A. Shea, Astrophysics and Space Science, 105, 187, 1984.
  107. A Multiple Type II Burst Associated with a Coronal Transient, and its MHD Simulation, S. T. Wu, T. E. Gergely, M. R. Kundu, Z. Smith and R. T. Stewart, Pergamon Press, Advances Space Research, 4(7), 283, 1984.
  108. Measurements of the Solar Diameter Using the Solar Beacon, J. M. Beckers, E. Hildner, and S. T. Wu, AIAA Paper No. 83-0514, 1983.
  109. Utilizing Vector Magnetic Field Observations to Determine Lorentz Forces Within an Active Region. K. R. Krall, S. T. Wu, J. B. Smith, Jr., M. J. Hagyard, and E. West. Bulletin. American Astronomical Society, 15(2), 1983.
  110. A New Class of Magnetohydrostatic Solution of Current Sheet and its Application to Prominence. H. M. Chang, Y. Nakagawa, S. T. Wu. Bulletin, American Astronomical Society, 15(2), 1983.
  111. Evolution of Electron and Proton Temperatures in a Flaring Loop, F. Nagai, S. T. Wu, and E. Tandberg-Hanssen, Solar Physics, 84, 271, 1983.
  112. Propagation of Solar Disturbances: Theory and Models (Invited Review), S. T. Wu, Space Science Reviews, 34, 73, 1983.
  113. Induced Mass and Wave Motions in the Lower Solar Atmosphere. I. Effects of Shear Motion on Flux Tubes, S.T. Wu, Y. Q. Hu, Y. Nakagawa, and E. Tandberg-Hanssen, Astrophysical Journal, 266, 866, 1983
  114. Non-Planar MHD Model for Solar Flare-Generated Disturbances in the Heliosphere Equatorial Plane. S. T. Wu, M. Dryer, and S. M. Han. Solar Physics, 84, 395, 1983.
  115. Magnetohydrodynamics Simulation of Coronal Transient Associated with the Solar Limb Flare of 1980 June 29, 1921 UT, S. T. Wu, S. Wang, M. Dryer, A. I. Poland, D. G. Sime, C. J. Wolfson, L. Orwig and A. Maxwell, Solar Physics, 85, 351, 1983
  116. Magnetohydrodynamics of Atmospheric Transients IV. Nonplane Two-Dimensional Analysis of Energy Conversion and Magnetic Field Evolution. S. T. Wu, Y. Nakagawa, S. M. Han, and M. Dryer. The Astrophysical Journal, 262, 369, 1982.
  117. A Mechanism for a Class of Solar Coronal Disturbances. S. T. Wu, Y. Q. Hu, S. Wang, M. Dryer, and E. Tandberg-Hanssen. Astrophysics and Space Science, 83, 189, 1982.
  118. Numerical Simulation of Magnetohydrodynamics (MHD) Shock Propagation in the Corona, S. T. Wu, (invited review), Space Science Reviews, 32, 115, 1982.
  119. Dynamics of the Eruptive Prominence of 6 May 1980 and Its Relationship to the Coronal Transients, S. T. Wu, N. Mein, B. Schmilder, G. Simon, and E. Tandberg-Hanssen, Astronomy & Astrophysics, 114, 192, 1982.
  120. Magnetohydrodynamic Models of Coronal Transients in the Meridional Plane. IV. Effect of the Solar Wind. R. S. Steinolfson, M. Dryer, E. TandbergHanssen, and S. T. Wu, Astrophysical Journal, 243, 641, 1981.
  121. A Transient MHD Model Applicable for the Source of Solar Cosmic Ray Acceleration. M. Dryer and S. T. Wu. Advances Space Research, 1, 85, 1981.
  122. Effect of Thermal Conduction and Radiation on the Dynamics of a Flaring Loop, S. T. Wu, L. C. Kan, Y. Nakagawa, and E. Tandberg-Hanssen, Solar Physics, 70, 137, 1981.
  123. Magnetohydrodynamics of Atmospheric Transients. III. Non-plane, Two-Dimensional Analysis, S. T. Wu, Y. Nakagawa and S. M. Han, Astrophysical Journal, 244, 331, 1981.
  124. Spatial Structure of Flare-associated Perturbations in the Solar Wind, S. T. Wu, C. D'Uston, M. Dryer and S. M. Han, J. Geophysical Research, 86(A2), 525, 1981.
  125. Transient MHD Model Application for the Source of Solar Cosmic Ray Acceleration, S. T. Wu and M. Dryer, Advances Space Research, 1, 85, 1981.
  126. A Class of Analytic Solutions for the Thermally Balanced Magnetistatic Prominence, S. T. Wu and B. C. Low, Astrophysical Journal, 248, 335, 1981.
  127. A Mechanism for a Class of Solar Coronal Disturbances, S. T. Wu, Y. Q. Hu, S. Wang, M. Dryer, and E. Tandberg-Hanssen, Astrophys. and Space Science Review, 83, 189, 1981.
  128. The Steady Global Corona, R. Steinolfson, and S. T. Suess, S. T. Wu, Astrophysical Journal, 255, 730, 1982.
  129. Dynamics of Coronal Transients: Two-Dimensional Non-plane MHD Models, S. T. Wu, Y. Nakagawa and S. M. Han, IAU Symposium 91, Solar and Interplanetary Dynamics, (M. Dryer and E. Tandberg-Hanssen, eds.), p 495, D. Reidel Publishing Company, Dordrecht, Holland 1980.
  130. Evolution of Coronal Magnetic Structures, R. S. Steinolfson and S. T. Wu, IAU Symposium 91, Solar and Interplanetary Dynamics, (M. Dryer and E. Tandberg-Hanssen, eds.), p 483, D. Reidel Publishing Company, Dordrecht, Holland 1980.
  131. Theoretical Interpretation of Traveling Interplanetary Phenomena and Their Solar Origins, S. T. Wu, Invited Review, IAU Symposium 91, Solar and Interplanetary Dynamics, (M. Dryer and E. Tandberg-Hanssen, eds.), p 443, D. Reidel Publishing Company, Dordrecht, Holland 1980.
  132. Two-dimensional, Time-dependent MHD Simulation of Disturbed Solar Wind Due to Flare- and Coronal Hole-generated Disturbances, S. T. Wu, M. Dryer and S. M. Han, Geofisica International, 29, 1, 1980.
  133. Highlights 1979 Space Sciences and Astronomy, Carroll C. Dailey, Henry B. Garrett, Joseph G. Kelley, M. A. Mitz, John C. Noyes, Keith W. Ogilvie and S. T. Wu, Astronautics and Aeronautics, 88, December, 1979.
  134. Non-Force Free Solar Magnetic Fields in Manetohydrostatic Equilibrium. R. H. Comfort, E. Tandberg-Hanssen and S. T. Wu. Astrophysical Journal 231, 927, 1979.
  135. Energy Deposition in the Earth's Atmosphere Due to Impact of Solar Activity-Generated Disturbances. S. T. Wu, L. C. Kan, E. Tandberg-Hanssen, and M. Dryer. Solar Terrestrial Influences on Weather and Climate, 119-124, 1979.
  136. Two-dimensional, Time-dependent MHD Description of Interplanetary Disturbances: Simulation of High Speed Solar Wind Interactions, S. T. Wu, S. M. Han and M. Dryer, Planetary and Space Science, 27, 255, 1979.
  137. Hydrodynamic Simulations of Flare/Surge Events, S. T. Wu, R. S. Steinolfson and E. J. Schmahl, Solar Physics, 63, 187, 1979.
  138. Magnetohydrodynamic Models of Coronal Transients in the Meridional Plane: II. Simulation of the Coronal Transient of 1973 August 1l, M. Dryer, S. T. Wu, R. S. Steinolfson, and R. M. Wilson, Astrophysical Journal, 227, 3, 1059, 1979
  139. Magnetohydrodynamics of Atmospheric Transients: I. Basic Results of Two-dimensional Analysis, Y. Nakagawa, S. T. Wu, and S. M. Han, Astrophysical Journal, 219, 314, 1978.
  140. Magnetohydrodynamics of Atmospheric Transients: II. Results of a Two-dimensional Numerical Study for the Inner Solar Coronal, S. T. Wu, M. Dryer, and Y. Nakagawa, Astrophysical Journal, 219, 324, 1978
  141. Global Constant-alpha Force Magnetic Fields and Coronal Structures, Y. Nakagawa, S. T. Wu, and E. Tandberg-Hanssen, Astronomy and Astrophysics, 69, 43, 1978
  142. Magnetohydrodynamic Models of Coronal Transients in the Meridional Plane: I. The Effect of Magnetic Field, R. S. Steinolfson, S. T. Wu, M. Dryer, and E. TandbergHanssen, Astrophysical Journal, 225, 259, 1978.
  143. Dynamic MHD Modeling of Solar Wind Co-rotating Stream Interaction Regions Observed by Pioneer 10 and 11, S. T. Wu, M. Dryer, Z. K. Smith, E. J. Smith, J. D. Mihalov, J. H. Solfe and R. S. Steinolfson, J. Geophysical Research, 832(A9) 4347, 1978.
  144. Magnetohydrodynamic Simulation of Coronal Mass Ejections into the Solar Wind. A Close-Up of the Sun, S. T. Wu, M. Dryer, R. S. Steinolfson, E. Tandberg-Hanssen, and R. M. Wilson, (M. Neugebauer and R. W. Davies, eds.) pp 367-687, 1978.
  145. Prominence Mass Ejection and Their Effects on the Corona. I. The Eruptive Prominence of 21 August 1973 and the Surge of 4 December 1973. J. B. Smith, D. M. Speich, R. M. Wilson, A. C. deLoach, R. B. Hoover, J. P. McGuire, E. Tandberg-Hanssen, S. T. Wu, and S. M. Han, Solar Physics, 52, 379, 1977.
  146. A Long-Lived Coronal Arch System Observed in X-rays, S. T. Wu, J. P. McGuire, E. Tandberg-Hanssen, K. Krall, J. B. Smith and D. Speich, Solar Physics, 52, 91, 1977.
  147. Dynamical Modeling of Coronal and Interplanetary Responses to Solar Events (Invited Review), Study of Traveling Interplanetary Phenomenon, S. T. Wu, Y. Nakagawa and M. Dryer, (M. A. Shea and D. F. Smart and S. T. Wu, eds.) 1977, D. Reidel Publishing Company, Utrecht, Holland.
  148. Interplanetary Disturbances in the Solar Wind Produced by Density Temperature, or Velocity Pulses at .08 AU. S. T. Wu, M. Dryer, and S. M. Han, Solar Physics, 49 187, 1976.
  149. Simulated Traveling Interplanetary Disturbances Initiated by Various Solar Phenomena, S. T. Wu, M. Dryer and R. S. Steinolfson, Space Research XVI, (M. Rycroft, ed.), Akademie-Verlag, Berlin, 1976.
  150. Results of Correlative Studies of A Complex Solar Active Region (McMath 12387) During Skylab Mission, S. T. Wu, J. B. Smith, D. M. Speich, R. M. Silson, A. C. deLoach, R. B. Hoover, J. P. McGuire, E. Tandberg-Hanssen and W. Henze, Space Research XVI, (M. Rycroft, ed.) Akademie-Verlag, Berlin. 1976.
  151. On Build-up of Magnetic Energy in the Solar Atmosphere, S. T. Wu, Y. Nakagawa and R. S. Steinolfson, Solar Physics, 1976, 47, 193.
  152. Partial Analysis of the Flare-Promineance of 30 April 1974. S. T. Wu, Murray Dryer, Patrick S. McIntosh, and Edwin Reichman, Solar Physics, 44, 137, 1975.
  153. Dynamic Response of an Isothermal Static Corona to Finite-amplitude Disturbances, S. T. Wu, Y. Nakagawa and E. Tandberg-Hanssen, Solar Physics, 41, 387, 1975.
  154. Propagation of Solar Disturbances in Interplanetary Space, International Symposium on Solar-Terrestrial Physics, Sao Paulo, Brazil, in Sun and Interplanetary Medium, 1, pp. 191-202, 1974.
  155. Kinetic Description of Solar Wind Interaction with 'Small' Celestial Objects, S. T. Wu, M. Dryer and T. S. Fu, Rarefied Gas Dynamics, (K. Karamacheti, ed.), Academic Press, New York, 1974.
  156. Coronal Transient Phenomenon, S. T. Wu and S. M. Proc. Third Solar Wind Conference, Asilomar, California, 24-29 March 1974, Solar Wind, Han (C. T. Russell, C. P. Sonett and P. J. Coleman, eds.) pp 144-151, 1974.
  157. A Kinematic Model of a Solar Flare, Y. Nakagawa, S. T. Wu and S. M. Han, Solar Physics, 12, 123, 1973
  158. Kinetic Theory Analysis of Solar Wind Interaction with Planetary Objects, Photon and Particle Interactions with Surfaces in Space, S. T. Wu, (G. Grard, ed.) D. Reidel Publishing Co., Dordrecht, Holland, 1973.
  159. A Kinematic Model of a Solar Flare, Y. Nakagawa, S. T. Wu and S. M. Han, Solar Physics, 30 111-120, 1973.
  160. On the Prediction of the Magnetic Field Strength Associated with Solar Flares, S T. Wu and K. O. Thompson, presented at 51st AGU, Washington, DC, April 1970, in Informationen zur Kernforschung und Kerntechnik, 1970

Proceedings and Conference Papers

  1. Magnetohydrodynamic Simulation of Small and Global Scale Reconnection Processes, S. T. Wu, S. Wang, and H. Zheng, Presented at the 32nd COSPAR Scientific Assembly, Nagoya, Japan July 1998, Special Issue of Advances Space Research, 26(3) pp 529-533, 2000.
  2. Streamer Evaporation, S. T. Suess, A.-H. Wang, S. T. Wu and S. F. Nerney, in Proceedings of the 7th SOHO Workshop, September 1998, Northeast Harbor, Maine, ESA Publication, 1999.
  3. Numerical Magnetohydrodynamic (MHD) Simulation of Coronal Mass Ejections (CMEs): Past, Present, and Future, S. T. Wu, Proceedings of the 5th International School/Symposium for Space Simulations, March 13-17, 1997 Radio Atmospheric Science Center, Kyoto University, Uji, Kyoto, Japan, 183-185, 1999.
  4. Generation and Propagation of Solar Disturbances: A Magnetohydrodynamic Simulation, S. T. Wu and W. P. Guo, invited paper at the Solar Terrestrial Physics Symposium (STP) of SCOSTEP, August 1997.
  5. Quasi-Three-Dimensional Magnetohydrodynamic Model of the Photospheric Dynamo and Force-Free Model of the Corona for Flare and CME Probability Predictions, C.D. Fry, S.T. Wu, and C.L. Yin, Proccedings of the 16th NSO/SP International Workshop, National Solar Observatory, Sac Peak, New Mexico, October16-20, 1995, Solar Drivers of Interplanetary and Terrestrial Disturbances, (eds. K. S. Balasubramaniam, S. L. Keil, and R. N.Smartt) Special Issue of the Astronomical Society of the Pacific, 95, 74, 1996.
  6. Global Magnetohydrodynamic (MHD) Simulation of the On-Set of Coronal Mass Ejections (CMEs), S. T. Wu and W. P. Guo, Proceedings of the 1998 Cambridge Symposium Workshop - On the Physics of Space Plasmas, Lisbon Portugal, June 22-July 3, 1998, in Physics of Space Plasmas, 15, 357, 1998.
  7. Initiation of Solar Disturbances Due to Emerging Magnetic Flux (EMF), S.T. Wu, and W.P. Guo, Proccedings of the 16th NSO/SP International Workshop, National Solar Observatory, Sac Peak, New Mexico, October16-20, 1995, Solar Drivers of Interplanetary and Terrestrial Disturbances, (eds. K. S. Balasubramaniam, S. L. Keil, and R. N.Smartt) Special Issue of the Astronomical Society of the Pacific, 95, 128, 1996.
  8. 3D MHD Simulation of the 14 April 1994 Non-Flare CME and Its Interplanetary Propation to Earth and Ulysses, M. Dryer, C.-C. Wu, Z.K. Smith, and S.T. Wu, AGU, Fall Meeting, December, 1995, EOS Supplement, 1995. (Abstract)
  9. Prediction of Solar Flare Associated Geomagnetic Storms, C.C. Wu, L.H. Lyu, M. Dryer, Z. Smith, and S.T. Wu, Proceedings of the First (1995) Radio Science Symposium, Kaohsiung, Taiwan, R.O.C., August 7-8, pp. 547-550, 1995.
  10. Initiation of Coronal Mass Ejections (CMEs), S.T. Wu, W.P. Guo, S. Wang, and Y. Zhang, Proceedings of the 3rd SOHO Workshop Solar Dynamic Phenomena and Solar Wind Consequences held at Estes Park, CO, Sept. 26-29, 1994.
  11. Quantitative Numerical Modeling of a Coronal Mass Ejection, A.H. Wang, S.T. Wu, S.T. Suess, and G. Poletto, Proceedings of the 3rd SOHO Workshop Solar Dynamic Phenomena and Solar Wind Consequences held at Estes Park, CO, Sept. 26-29, 1994.
  12. Extension of Rezoned Eulerian-Langrangian Method to Astrophysical Plasma Applications, M. T. Song, S. T. Wu, and M. Dryer, AIAA Paper No. 93-3177, presented at the 24th AIAA Plasmadynamics and Lasers Conference, Orlando, Florida, July 6-9, 1993.
  13. Ly-alpha Intensity in Coronal Streamers, G. Noci, G. Poletto. S. T. Suess, A. H. Wang and S. T. Wu, European Geophysical Union Spring Meeting, April 1992.
  14. Magnetic Structures and Energy of 1989 March Flares, S. T. Wu, F. S. Weng, H. M. Wang, H. Zirin, and G. X. Ai, presented at XXVIX COSPAR Plenary Meeting and Associated Activities, World Space Congress, Washington, DC, August 1992
  15. Forecasting the Arrival of the Fast Coronal Mass Ejecta at Earth by the Detection of 2-20 keV Neutral Atoms, K. C. Hsieh, K. L. Shih, D. J. McComas, S. T. Wu and C. C. Wu, SPIE Conference Paper, 1992.
  16. Heliospheric Current Sheet Effects on the Propagation of the Solar Flare-Generated Disturbances, M. Dryer, S. T. Wu, and S. M. Han, 26th ESLAB Symposium on Study of the Solar-Terrestrial System, Killarney, Ireland, 16-19 June 1992
  17. Magnetohydrodynamic Modeling of Coronal Streamers and Holes, S.T. Wu, A.H. Wang, S.T. Suess, and G. Poletto, American Geophysical Union Fall Meeting, EOS Transactions Supplement, October 27, p. 447, 1992.
  18. Numerical Simulation of Solar Atmospheric Dynamics, S.T. Wu, U.S.-Taiwan Bilateral Workshop on Solar Variability Effects on the Atmosphere and Space Processing, 109-115, Taipei, Taiwan, April 15-17, 1992,
  19. Three-Dimensional Numerical Simulation of Interplanetary Magnetic Field Changes at 1 AU as a Consequence of Simulated Solar Flares, S. T. Wu, C. C. Wu and M. Dryer, 26th ESLAB Symposium on Study of the Solar-Terrestrial System, Killarney, Ireland, 16-19 June 1992.
  20. Ly-alpha Radiation from Coronal Transients, D. Spadaro, R. Ventura, R. Martin, S. T. Wu and A. H. Wang, I SOHO Workshop, Annapolis, Maryland, 25-28 August, 1992.
  21. Numerical Simulation of the Evolution of Interplanetary Slow Shock, Chin-Chun Wu, S.T. Wu, S.T. Suess, and Z.E. Musielak, American Geophysical Union Fall Meeting, EOS Transactions Supplement, December 9-13, p. 389, 1991. (Abstract)
  22. MHD Non-Equilibrium: A Numerical Experiment, P. Martens, M. T. Sun and S. T. Wu, Colloquium No. 133, of the International Astronomical Union held at Iguazu, Argentina, 2-6 August 1991.
  23. A Numerical Simulation of Magnetically Driven Coronal Mass Ejections, W. P. Guo, J. F. Wang, B. X. Liang, and S T. Wu, Colloquium No. 133, of the International Astronomical Union held at Iguazu, Argentina, 2-6 August 1991.
  24. The Intrinsic Relationship Between Flares and Eruption of Filament Currents, S. T. Wu and A. A. Xu, Colloquium No. 133, of the International Astronomical Union held at Iguazu, Argentina, 2-6 August 1991.
  25. A Two-Dimensional MHD Global Coronal Model: Steady-State Streamers, A.-H. Wang, S. T. Wu, S. T. Suess and G. Poletto, Solar Wind VII, 1991.
  26. Numerical Modeling of the Energy Storage and Release in Solar Flares, S. T. Wu and F. S. Weng, presented at the U.S. -Taiwan Bilateral Workshop on Solar Variability Effects on the Atmosphere and Space Processing, Taipei, Taiwan, April 15-17, 1991
  27. Numerical Simulation of Solar Atmospheric Dynamics, S. T. Wu, SIMPO Newsletter, STEP Simulation Promotion Office, 1, 14, Spring & Summer, September 1991.
  28. Numerical Modeling of the Energy Storage and Release in Solar Flares, S. T. Wu, Proceeding of the Pacific Regional STEP Conference, (A. J. Chen & S. Y. Su, eds.) Graduate Institute of Space Science, National Central University, Chungli, Taiwan, 1991.
  29. A Mechanism For The Arch-Filament Eruption: Photospheric Shear Motion Induced Instability, S.T. Wu, M.T. Song, and M. Dryer, IAU Symposium, 142, India, 1990.
  30. Ambiguities in IPS G-maps-3D Simulation Results, T. R. Detman, H. Leinbach, M. Dryer, S. M. Han, and S. T. Wu, presented at the Fall Meeting of the AGU, December, 1990.
  31. Large Scale Magnetic Field Phenomina, R.D. Bently, J. Brosius, B.N. Dwivedi, M. Jardine, J.A. Klimchuk, M.R. Kundu, G. Pearse, J. Saba, T. Sakurai, J. Schmelz, D.G. Sime, C.D. Steele, M.T. Sun, S.J. Tappin, K. Waljeski, A.H. Wang, and S.T. Wu, Proceedings of the Second, Workshop on Thermal-Non-Thermal Interactions in Solar Flares, University of Oxford, England, April 10-14, 1989.
  32. An Extrapolation of Solar Magnetic Field Based on Non-linear Force-Free Formalism, S. T. Wu, M. T. Sun, H. M. Chang, M. J. Hagyard, and G. A. Gary, Presented at the Thermal/Non-Thermal Interactions in Flares Workshop and will appear in the Proceedings to be published by Rutherford Appleton Laboratory, (K. Phillips, ed.), Oxford, England, 1989.
  33. Shear Induced Non-Equilibrium of an Arcade Field Configuration in Relation to CMEs, S. T. Wu, M. T. Song, M. Dryer, Presented at the Thermal/Non-Thermal Interactions in Flares Workshop and will appear in the Proceedings to be published by Rutherford Appleton Laboratory, (K. Phillips, ed.), Oxford, England, 1989.
  34. A Magnetohydrodynamic (MHD) Description of Formation and Evolution of Active Region (AR) S. T. Wu, C. L. Yin, P. McIntosh and E. Hildner, 3rd Solar Cycle Workshop, Sydney, Australia, January 8-13, 1989. (Abstract)
  35. Coronal Responses Due to an Observed XRP Event, S. T. Wu, A. H. Wang, D. M. Zarro, K. Strong, G. L. Slater and O. C. St Cyr, Proceedings of the SMM Thermal/Non-Thermal Workshop, April 10-14, 1989, (K. Phillips, ed.) Rutherford Appleton Laboratory, Oxford, England, 1989.
  36. A Numerical Study of Transient, Thermally Conductive Solar Wind. S. M. Han, S. T. Wu, and M. Dryer, in STIP Symposium on Solar/Interplanetary and Cometary Intervals, M. A. Shea and D. F. Smart (eds.), 1989.
  37. Conditions For The Formation of The Kippenhahn-Schluter (K-S) Type Prominence via Numerical Simulation, S.T. Wu, J.J. Bao, C.H. An, E. Tandenberg-Hanssen, IAU Colloquim, No. 117, Dynamics of Prominences, Hvar, Jugoslavia, September 25-29, 1989,
  38. A Time Dependent 3-D MDH Numerical study of Interplanetary Magnetic Field Line Draping Around a Spheroidal Plasmoid in the Solar Wind, T.R. Detman, M. Dryer, T. Yeh, S.M. Han, and S.T. Wu, EOS, 69(44), November, 1988. (Abstract)
  39. Alfven Wave Trapping in the Solar Corona and Its Role in the Solar Wind Acceleration, C.-H. An, S. T. Wu, S. T. Suess, R. L. Moore, and Z. E. Musielak, Presented at the Fall Meeting of the American Geophysical Union, December, 1988.
  40. MHD Wave Energy Leakage Through an Interface, S. T. Suess, Z. E. Musielak, Y. C. Xiao, and S. T. Wu, presented at AGU Fall Meeting, December 1988, EOS, 69(44), 1365, 1988. (Abstract)
  41. A Numerical Magnetohydrodynamic (MHD) Simulation of Prominence Formation with Condensation and Thermal Conduction, S. T. Wu, J. J. Bao C.-H. An, and E. Tandberg-Hanssen, in Dynamics and Structure of Solar Prominences, (J. L. Ballester and E. R. Priest Eds.), pp. 85-89, Proceedings of the Workshop held November 18-20, 1987, Palma De Mallorca, Spain, 1988.
  42. MHD Simulation for Quiescent Prominence Formation by Photospheric Shearing or Converging Motions. C. H. An, S. T. Wu, J. J. Bao and S. T. Suess, in Dynamics and Structure of Solar Prominences, (J. L. Ballester and E. R. Priest Eds.), pp. 89-92, Proceedings of the Workshop held November 18-20, 1987, Palma De Mallorca, Spain, 1988
  43. Adaptive Grid MHD Simulation of Solar Disturbances Propagating From the Sun to 1 AU, by S. T. Wu, S. Panitchob, and S. T. Suess, Proceedings of the VIth International Solar Wind Conference, 23-28 Aug 1987, National Center for Atmospheric Research, NCAR/TN-306+Proc., pp 303-307, 1988.
  44. Evolution of Slow Shocks in the Solar Wind, by J. K. Chao, S. T. Wu, C. C. Wu, M. Dryer, Proceedings of the VIth International Solar Wind Conference, 23-28 Aug 1987, National Center for Atmospheric Research, NCAR/TN-306+Proc., pp 303-307, 1988.
  45. Three-Dimensional, Time-Dependent MHD Simulation of Travelling Interplanetary Phenomena with Solar Origin, S. T. Wu, M. Dryer and S. M. Han, Proceedings of the 3rd International School for Space Simulation, La Londe-les-Maures & Baulie, France, June 15-27, 1987.
  46. Magnetohydrodynamic Simuilation of Formation and Propagation of Plasmoids in Heliospheric Space, EOS, 44(1410), 1987.
  47. Formation of Active Region and Quiescent Prominence Magnetic Field Configurations, C.-H. An, J. J. Bao and S. T. Wu, in Coronal and Prominence Plasma, A. Poland (ed.), NASA Conference Publication 2442, pp 51-56, 1987.
  48. Filament Formation Due to Photospheric Shear, S. T. Wu, and Y. C. Xiao, in Coronal and Prominence Plasma, A. Poland (ed.), NASA Conference Publication 2442, pp 47-50, 1987.
  49. Three-Dimensional, Time-Dependent MHD Model of a Solar Flare-Generated Interplanetary Shock Wave, Symposium Proceedings; The Sun and the Heliosphere in Three-Dimensions (K.-P. Wenzel and R. G. Marsden, Eds.), pp 136-140, "Astrophysics and Space Science Library", D. Reidel Publishing Co., Dordrecht, The Netherlands, 1986.
  50. The Solar/Interplanetary/Magnetosphere/Ionosphere Connection: A Strategy for Prediction of Geomagnetic Storms, M. Dryer, S.-I. Akasofu, H. W. Kroel, R. Sagalyn, S. T. Wu, T. F. Tascione, and Y. Kamide, AAS/AIAA Astrodynamics Specialist Conference, 1985.
  51. A Transient, Three-Dimensional MHD Model for Numerical Simulation of Interplanetary Disturbances, by S. M. Han, S. T. Wu and M. Dryer, in STIP Symposium on Retrospective Analyses and Future Coordinate Intervals, (M. A. Shea and D. F. Smart eds.) Bookcrafters Publishing Co., 1985.
  52. MHD Simulation of Disturbed Solar Wind in Three Dimensions, by S. T. Wu, M. Dryer, and S. M. Han in Structures and Dynamics of the Heliosphere, Proceedings of the Symposium on Heliospheric Study in Japan, (T. Watanabe ed.), 1985.
  53. Computer Simulated Active Solar Phenomena, by S. T. Wu, Proceedings of Kunming Workshop on Solar Physics and Interplanetary Travelling Phenomena, Vol. 1, (C. de Jager and C. Baio, eds.), pp 56-72, Science Press, Beijing, China.1985.
  54. Solar Terrestrial Physics - Present and Future (Chapter 6 - Coronal Transients and their Interplanetary Effects), A. J. Hundhausen, L. F. Burlaga, W. C. Feldman, J. T. Gosling, E. Hildner, L. L. House, R. A. Howard, A. S. Krieger, M. R. Kundu, B. C. Low, N. R. Sheeley, Jr., R. S. Steinolfson, R. T. Stewart, R. G., and S. T. Wu. , NASA Reference Publication 1120, June 1984.
  55. Interplanetary Disturbances Produced by a Flare Generated Shock With Precursor Effects, S. T. Wu, J. F. Wang, M. Dryer, G. Gislason, Z. M. Smith and S. M. Han, Proceedings of SCOSTEP/STIP Symposium on Solar/Interplanetary Intervals, 383-394, (M. A. Shea, et al., Eds.), Royal Irish Academy, 1984.
  56. Magnetohydrodynamic (MHD) Description of Solar Flare Radio Burst, STIP Symposium on Solar/Interplanetary Intervals, (M. A. Shea, D. F. Smart, and S. M. P. McKenna-Lawlor eds.), 1984.
  57. Fields, Currents and Plasma Properties in a Solar Active Region Due to Shear Effects and Related to a Shear Index, S. T. Wu, J. J. Bao, Y. C. Xiao and J. B. Smith, Jr., Solar-Terrestrial Predictions: Proceedings of a Workshop at Meudon France June 18-22, (P. A. Simon, G. Heckman, & M. A. Shea, eds.), U. S. Department of Commerce Publication, pp 338-352, NOAA/ERL, Boulder, Colorado, 1984.
  58. Computer-Simulated Active Solar Phenomena, S. T. Wu. Proceedings of Kunming Workshop on Solar Physics and Interplanetary Travelling Phenomena. Vol. 1, 21-25 November 1983.
  59. Modeling of Coronal Dynamics with Application to Radio Bursts, Invited Paper, STIP Symposium on Solar Radio Astronomy, Interplanetary Scintillation and Coordination with Space Craft, (M. A. Shea, et al., eds.) AFGL Publication, Hanscom AFB, Maine, 1983.
  60. Solar Flare Energy Build-up in the Atmosphere Due to Shearing Motion of Foot-Points. S. T. Wu and Y. Q. Hu, Solar Maximum Year (Proceedings of International Workshop, Simferopol, March 1981, V. N. Obridko and E. V. Ivanov, Eds.). Sun-Earth Council, Izmiran, USSR, Vol, I. P. 148, March 1982.
  61. Magnetohydrodynamic (MHD) Description of Solar Radio Bursts, S. T. Wu, Proceedings of the STIP Symposium on Solar Radio Astronomy, Interplanetary Scintillations and coordination with Spacecraft, Air Force Geophysics Laboratory. Space Physics Division, Project 2311, 27 December 1982.
  62. Effects of Emerging Magnetic Flux on the Solar Corona, S. T. Wu, R. Steinolfson, M. Dryer, and E. Tandberg-Hanssen in Solar Wind IV, Report No. MPAE-W-100-81-31, p. 51, (H. Rosenbauer, ed.) Max-Planck Institute for Aeronomic, KatlenburgLindau, West Germany, 1981.
  63. Simulation of An Interplanetary Perturbation by a Time-Dependent Two-Dimensional MHD Numerical Model, C. D'Uston, M. Dryer, S. M. Han and S. T. Wu, in Solar Wind IV, Report No. MPAE-W-100-81-31, p. 51, (H. Rosenbauer, ed.) Max-Planck Institute for Aeronomic, KatlenburgLindau, West Germany, 1981.
  64. Solar Maximum Year - Study of Traveling Interplanetary Phenomena, Institute for Plasma Research, Stanford University, Stanford, California, SUIPR Report No. 841, 1981.
  65. Magnetic Energy Build-up in the Solar Atmosphere Due to Shear Motions of Foot Points, S. T. Wu, and Y. Q. Hu, Proceedings of Crimean Solar Maximum Year Workshop, Vol. I., pp 148, (V. N. Obridko, ed.), IZ MIRAN, U.S.S.R. Academy of Science, Moscow, 1981.
  66. Solar-Terrestrial Research in the Shuttle Age, S. Morgan and S. T.Wu, Invited Paper, Ed. Dave Dooling, Proceedings AIAA Seminar on Shuttle to the Next Space Age, 1980.
  67. Theoretical Studies of Traveling Interplanetary Phenomena (STIP), Invited Paper in Proceedings of Indo-U.S. Workshop on Solar Terrestrial Physics for Solar Maximum Year, (A. Bgatbnager, ed.) Vedhshala Udaipur Solar Observatory, India, 1979.
  68. Two-Dimensional, Time-Dependent MHD Simulation of the Disturbed Solar Wind to Representative Flare-generated and Coronal Hole-generated Disturbances. M. Dryer, S. T. Wu, and S. M. Han. Paper presented at the SCOSTEP/IAU/COSPAR/IAGA Solar Terrestrial Physics Symposium, in Innsbruck, Ausitria, June 1978. Geophisisca International, 19(1), 1980.
  69. Two-Dimensional MHD Simulation of Stream Interactions Due to Solar Flares and Newly Created Coronal Holes. M. Dryer, S. T. Wu, and S. M. Han. in Proceedings of the Solar-terrestrial Physics Symposium, Innsbruck, 1978.
  70. The Effect of the Magnetic Field on Coronal Transients, 1977, in Study of Traveling Interplanetary Phenomena, S. T. Wu, R. S. Steinolfson, M. Dryer and E. Tandberg-Hanssen, (. A. Shea, D. F. Smart and S. T. Wu, eds.) Air Force Geophysics Laboratory Publication, Hanscom AFB, Maine, 1977.
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Atmospheric Physics

Journal Publications

  1. Three Dimensional Simulation of Current Collection in Space, A. Shiah, K.S. Hwang, S.T. Wu, and N. H. Stone, Planetary & Space Science, 45(4), 475, 1997.
  2. Simulation of Electron Beam Injections from Spacecrafts, K. S. Hwang, S. T. Wu, and N. Singh, EOS, 69(44), 448, 1988.
  3. The Solar Flare-Induced Earth's Environment, AIAA/AAS Astrodynamics Conference, S. T. Wu, M. Dryer and S. M. Han AAS Paper 85-314, 1985.
  4. The propagation of Magnetoaqcoustic-Gravity Waves in the Photosphere and Chromosphere, S. T. Wu and A. Tan, Journal of China University of Science and Technology, pp 71-80, 1985.
  5. Model of Mid- and Low-latitude F-Region Ionosphere and Protonosphere, S. T. Wu and S. Wang, Geofisica International, 20(1), 11, 1981
  6. The Jovian Plasmasphere in Tilted Dipole Model, S. T. Wu, L. C. Kan, E. Tandberg-Hanssen and M. Dryer, Chinese J. of Phys., 19(1), 30, 1981.
  7. Energy Disposition in the Earth's Atmosphere Due to an Impact of Solar Activity Generated Disturbances, S. T. Wu, in Solar Terrestrial Influences on Weather and Climate, (B. M. McComac and T. A. Seliga, eds.), D. Reidel Publishing Co., Dordrecht-Holland, 1979.
  8. Post-Viking Martian Atmosphere, S. T. Wu, and A. Tan Acta Astronomics, 218(2), 187-194, 1978.
  9. Transient Thermospheric Heating and Movement Caused by an Auroral Electric Field, S. T. Wu and K. D. Cole. Planetary and Space Science, 24, 727-730, 1976.
  10. An Analysis of Auroral E-Region Neutral Winds Based on Incoherent Scattering Radar Observations at Chatanika, S. T. Wu, R. H. Comfort and G. R. Swenson, Planetary and Space Science, 24, 524, 1976.
  11. Propagation of Acoustic Modes in Transitional Ionosphere, S. T. Wu, R. J. Hung and R. E. Smith, J. Geophysical Research, 90, 312, 4325, 1975.
  12. An Analysis of the Upper Atmospheric Wind observed by Logacs. S. T. Wu, S. Matsushita, and L. L. DeVreis, Planetary and Space Science, 22, 1036, 1974.
  13. Joule Heating and Winds Due to Geomagnetic Disturbances, S. T. Wu, S. C. Chang and R. E. Smith, J. Atmospheric and Terrestrial Physics, 36, 1974.
  14. The Dynamical Responses of the Thermosphere Due to a Geomagnetic Storm, S. T. Wu, S. C. Chang and R. E. Smith, AIAA Paper No. 74-217, 1974.
  15. Semi-empirical Electron-impact Ionization Cross-sections of Some Hydrocarbons, S. T. Wu and A. Tan, Chinese J. of Physics, 15(1), 56, 1974.
  16. Propagation of Hydromagnetic Waves in the Upper F2-Region, R. J. Hung, S. T. Wu, and R. E. Smith. Planetary & Space Science, 21, 2157, 1973.

Proceedings and Conference Papers

  1. An Overview of the Joint UAH-NCKU SEDSAT-1 SEASIS Program, S.T. Wu, D. Wingo, C. Bankston, and F.B. Hsiao, Invited Presentation-Oceanic Microwave Remote Sensing Workshop at the Graduate College of Marine Studies, University of Delaware, Lewes, Delaware, Aug. 16-18, 1995.
  2. Analysis of Static Spacecraft Floating Potential at Low Earth Orbit (LEO), J.L. Herr, K.S. Hwang, and S.T. Wu, 26th AIAA Plasmadynamics & Lasers Conf., June 16-22, 1995, San Diego, CA.
  3. Three Dimensional Electron Collection Model of The First Tethered Satellite System, A. Shiah, S. T. Wu, K. S. Hwang, N. H. Stone, 5th Workshop on the Physics of Dusty Plasmas, March 22-24, 1993, The University of Alabama in Huntsville, Huntsville, Alabama
  4. Three-Dimensional Current Collection Model, K. S. Hwang, A. Shiah, S. T. Wu, and N. Stone, AIAA Paper 92-2988, AIAA 23rd Plasmadynamics and Lasers Conference, Nashville, Tennessee 6-8 July 1992.
  5. Formation of Whistler Duct in Earth's Magnetosphere due to Solar Disturbance, Proceedings of 7th International Symposium on Equatorial Aeronomy, Hong Kong University, 1984.
  6. Solar Variability in Relation to Earth Atmosphere, NASA GR-161762, MSFC/NASA, Alabama, 1981,
  7. A Time-dependent Neutral Wind Model for E-Region, S. T. Wu, R. H. Comfort, and G. R. Swenson, Proceedings of International Conference on Recent Advances in Physics and Chemistry of E Region, (D. Matsushita and L. G. Smith, eds.) 13-15 August 1974.
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Basic Theory, Kinetic Theory, Fluid Dynamics, Plasmadynamics, MHD Heat Transfer, and Radiative Gasdynamics

Journal Publications

  1. Formation of the Electric Double Layer and Its Effects on Moving Bodies in a Space Plasma Enviroment, Q. Yang, S. T. Wu, N. H. Stone, and X. Li, 27th AIAA Plasmadynamics and Lasers Conference, New Orleans, LA, AIAA Paper No. 96-2312, June 1996.
  2. A Numerical Magnetohydrodynamic Simulation of Magnetic Flux Compression-Planar Geometry, L. L. Altgilbers, S. T. Wu and Y. C. Xiao, Explosion and Shock Waves, 11(4), 298, 1991.
  3. Resistive and Eruptive Instability by Pondermotive Force with High-Frequency Plasma Oscillations, X.-Q. Li and S. T. Wu, Proceedings of the 2nd International Workshop on the Relation Between Laboratory and Space Plasmas, Tokyo, Japan, November 25-26, 1986, in Laboratory and Space Plasmas, Invited, (H. Kikuchi ed.), Springer-Verlag Publishers, New York, 239-265. 1989.
  4. A Numerical Iterative Method of Studying Two-Dimensional Natural Convection Problems, K. Guo and S. T. Wu, J. of Engineering Thermophysics, 4(4) 1983.
  5. Numerical Experimentation of Spherically Symmetric One-dimensional Magnetohydrodynamic (MHD) Wave Propagation, S. T. Wu, S. M. Han and Y. Nakagawa, Int'l. J. Computers and Fluids, 10(3), 159. 1981.
  6. Space Platform Science/Application Requirements, S. T. Wu, W. L. Taylor, D. Torr and A. B. C. Walker, (Invited Paper, AIAA Paper No. 81-0304), AIAA 19th Aerospace Sciences Meeting, St. Louis, Missouri. January 12-15, 1981,
  7. Non-equilibrium Ionized Blast Wave, J. of Physical Society of Japan, , 36(1), 1974.
  8. Unsteady MHD Duct Flow by Finite Element Method, S. T. Wu, International Journal for Numerical Methods in Engineering, 6, 3, 1973.
  9. On the Natural Frequencies of Standing Water Waves in a Canal of Arbitrary Shape. Shih-Chih Chang, and S. T. Wu. Journal of Applied Mathematics and Physics (ZAMP), 23, 1972.
  10. Liquid Oscillations in a Canal of Arbitrary Shape, ZAMP(J. of Applied Math. & Physics), 23, 881, 1972
  11. Development of MHD Entrance Flow in a Channel, S. T. Wu, T. S. Fu, and Mary B. Wear, La Revue de Physique Appliquee, 6, 409, 1971
  12. Conservation Equations for the Non-equilibrium Radiative Flow, J. of Physical Society of Japan, 29(3), 1970.
  13. Structure of Blast Wave with Ionization, S. T. Wu and T. S. Fu, J. of Applied Physics, 41(2), 1970.
  14. Analysis of Blunt-body Stagnation Region Heat Transfer with Non-gray Emitting Absorbing Gas Subjected to External Radiation, S. T. Wu and J. Q. Lilly, AIAA J., 7(9), 1969.
  15. Kinetic Theory of Macroscopic Transport Phenomena in Multi-fluid Systems, S. T. Wu, J. of the Physical Society of Japan, 27(l), July 1969.
  16. Radiative Heat Flux for an Optically Thin Gas, S. T. Wu, AIAA J., 7(4), 727, April, 1969.
  17. Stagnation Region Heat Transfer with Non-gray Gas Subjected to External Radiation, J. Q. Lilly, and S. T. Wu, AIAA Journal, 7(9), 1800, September 1969.
  18. Exact Solution for the Diffusion of a Charged Particle in a Time-varying Electromagnetic Field, Electronics Letters, S. T. Wu, Y. Nakagawa and N. Audeh, IEE, 4(2l), 1968
  19. On Multifluids Description of Shock Structure with Radiation, S. T. Wu and Y. Nakagawa, J. Quant. Spectrosc. Radiation Transfer, 8, 556, 1968.

Proceedings and Conferences Papers

  1. Interfacial Stability of Spherically Converging Plasma Jets for Magnetized Target Fusion, J. T. Cassibry, S. T. Wu, Y. C. F. Thio, in Proceedings of the 4th International Conference on Aerospace Science and Technology, Taiwan, pp 285-304, May 21-23, 2001
  2. Experimental Study of the Ionization of Flowing Gases by DC Corona Discharge, S. Deaconu, H. W. Coleman, and S. T. Wu, 32nd AIAA Plasmadynamics and Lasers Conference, 11-14 June 2001, Anaheim, CA.
  3. Assessment of the Magnetic Field Reconnection Potential for Space Propulsion Applications, S. Deaconu, H. W. Coleman, and S. T. Wu, 31st AIAA Plasmadynamics & Lasers Conference, June 19-22, 2000, Denver, CO
  4. An Estimation of Tolerances on Relative Velocities of Spherically Converging Plasma Jets, J. T. Cassibry, S. T. Wu, Y. C. F. Thio, R. Eskridge, J. W. Smith, M. Lee, C. Dodson, D. Davenport, and G. R. Smidt, 31st AIAA Plasmadynamics & Lasers Conference, June 19-22, 2000, Denver, CO
  5. Evolution of Coronal MHD Shocks into Interplanetary MHD Shocks, S. T. Wu, W. P. Guo, M. Dryer, B. Tsurutani, and O. L. Vaisberg, Proceedings of the First US-Russian Scientific Workshop on FIRE Environment, (O. Vaisberg, B. Tsurutani, eds.), Space Research Institute, Moscow, pp 266-272, June 1995.
  6. A Numerical Study of the Heat Transfer Due to Shock-Boundary Layer Interactions with Finite-Rate Chemical Reaction and Radiation Effects, S. T. Wu, Y. H. Zhu, and A. Ritter, AIAA Paper No. 94-0694, presented at the 32nd Aerospace Sciences Meeting & Exhibit, Reno, Nevada, January 10-13, 1994.
  7. Numerical Study on the Effects of a Lateral Jet Interaction in the Viscous Hypersonic Flow, S. Chan and S. T. Wu, AIAA 9th Computational Fluid Dynamics Conference, Buffalo, New York, June 6-14, 1989.
  8. Finite Element Analysis of Multi-Jet Interactions in a Cavity with Sudden Contraction Exit, S. Chang and S. T. Wu, 4th Asian Congress of Fluid Mechanics, Hong Kong, August 19-23, 1988.
  9. Numerical Simulation of Single and Multiple Jet Interaction Within a Combustor, by S. D. Bai, S. T. Wu and C. W. Campbell, in Proceedings of the 5th International Conference on Numerical Methods in Laminar and Turbulent Flow, pp 15320-1541, Montreal, Quebec, Canada, July 6-10, 1987.
  10. A Numerical Magnetohydrodynamic Simulation of Magnetic Flux Compression in Cylindrical Geometry, S. T. Wu, M. T. Song, and L. L. Altgilbers, Proceedings of the 4th International Conference on Megagauss Magnetic Field Generation and Related Topics, pp 283-290, 1987.
  11. A Numerical Analysis of Three-Dimensional MHD Shock Interactions in an Inhomogeneous Medium, by M. Prendergast and S. T. Wu, in Developments in Mechanics, Volume 14b, 692-697, 1987.
  12. An Analysis of Oscillations of a Water Droplet Under Low Gravity Conditions, O. H. Vaughan, R. E. Smith, R. J. Hung and S. T. Wu, Proceedings of International Colloquium on Drops and Bubbles, August 1984, Eds. M. M. Saffren, et al., California Institute of Technology. Proceedings of Workshops to Define Engineering Requirements for a Space Vacuum Research Facility, NASA Conference Paper NASA CP 2091, (W. A. Oran, S. T. Wu, and R. W. Hoffman eds.), 1979.
  13. Poiseulle Flow of a Rarefied Gas in a Rectangular Duct, S.T. Wu and D. R. Jeng, Developments in Mechanics, Vol. 7, pp 277-287, 1973.
  14. A Numerical Solution of the Boltzmann Equation by the Finite Element Technique, Seventh Rarefied Gasdynamics, G. Aguirre-Ramirez, J. T. Oden and S. T. Wu, (Dino Dini, Silvio Nocilla and Carlo Cercignan, eds.), Editrice Tecnico Scientifica, Pisa, Italy 1971.
  15. On the Role of Density Gradients in the Continuum Theory of Mixtures with G. Aguirre Ramirez. Developments in Theoretical and Applied Mechanics, (Grover L. Rogers, S. C. Krane and E. G. Henneke, eds.) University of North Carolina Press. Vol. 5, pp 613-627, November 1971.
  16. Non-Equilibrium Radiative Couette Flow, Presented at the 20th Congress of Inter national Astronautical Federation on October 5-12, 1969, Mar del Plata, Argentina, Proceedings of 20th Congress of International Astronautical Federation (Re-entry Physics I), Pergammon Press, 1970.
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Applications of Numerical Methods

Journal Publications

  1. Numerical Boundary Conditions for Solar Magnetohydrodynamic Flows using the Methods of Characteristics, S.T. Wu, A.H. Wang, and W. P. Guo, Special Issue Asrophysics and Space Science, 243, 149, 1996.
  2. On the Time-Dependent Numerical Boundary Conditions of Magnetohydrodynamic Fluid Flows, M. T. Sun, S. T. Wu, and M. Dryer, J. Computational Physics, 116, 330, 1995.
  3. Modified Ice-Ale Method for Astrogeophysical Plasma Flows, S. T. Wu, M. T. Song and M. Dryer, AIAA 22nd Fluid Dynamics, Plasma Dynamics and Lasers Conference, June 2426, 1991, Honolulu, Hawaii, AIAA Paper # 91-1470, 1991.
  4. A Comparison Between Progressive Extension Method (PEM) and Iterative Method (IM) for Magnetic Field Extrapolation in the Solar Atmosphere, S. T. Wu, M. T. Sun and T. Sakurai, Mem. S. A. It., 61(2), 477, 1990.
  5. Recent Developments on the Numerical Simulation of Astrogeophysical Flows. S. T. Wu, M. Dryer, and S. M. Han. Proceedings of the International Conference on Computational Engineering Science ICES88-Altanta, Apirl 11 -14,1988, Computational Mechanics '88 Theory and Applications, Vol. 2., p 52.IX.1-2, (S. N. Atluri, G. Yagawa, eds.) Springer-Verlag Publisher, New York, 1988.
  6. Numerical Tests of a Modified Full-Implicit-Continuous-Eulerian (FICE) Scheme with Projected Normal Characteristic Boundary Conditions for MHD Flows, S. T. Wu and J. F. Wang, Computer Methods in Applied Mechanics and Engineering, 64, 267, 1987.
  7. An Adaptive Grid, Unsteady Model for Two-Dimensional Magnetohydrodynamic (MHD) Flow, S. T. Wu, AIAA Paper No. 87-1218, 1987.
  8. A Full-Implicit-Continuous-Eulerian (FICE) Scheme for Multidimensional Transient Magnetohydro-dynamic (MHD) Flows and Numerical Example, Y. Q. Hu and S. T. Wu, J. of Comp. Phys., 55(1), 33, 1984.
  9. On the ADI Scheme for a Two-dimensional Transient Heat Conduction Problem with Phase Change, S. T. Wu, G. L. Guo and L. L. Altgilbers, AIAA Paper No. 84-0395, 1984.
  10. Numerical Study of a Two-dimensional, Non-plane Transient Magnetohydrodynamic Flows, S. M. Han, S. T. Wu, and Y. Nakagawa, Int'l J. Computers and Fluids, 10(2), 127. 1982.
  11. Full-Implicit-Continuous-Eulerian Scheme in the Spherical Coordinates and Its Applications to Solar Phenomena, S. T. Wu, S. Wang, and Y. Hu, Scientia Sinica (Series A), 25(12), 1325, 1982.
  12. Application of Finite-element-techniques to the Interaction of Conduction and Radiation in an Absorbing, Scattering and Emitting Medium, S. T. Wu, R. E. Ferguson and L. L. Altgilbers, AIAA Paper 80-l46, 1980.
  13. Numerical Study of an Explosion in a Non-homogeneous Medium with and without Magnetic Fields, S. M. Han, S. T. Wu, and Y. Nakagawa, Int'l J. Computers and Fluids, 1, 97-108, 1978.
  14. The Finite Element Analysis of Transient Rarefied Gas Flow, T. J. Chung, J. T. Oden and S. T. Wu, Finite Element Method in Flow Problems, pp 251-265, (J. T. Oden, C. Zienkiewics, R. H. Gallagher and C. Taylor, eds.) 1975.
  15. Unsteady MHD Flow in Arbitrary Ducts by Finite Element Technique, S. T. Wu, Int'l J. Numerical Method in Engineering, 6, 3, 1973.
  16. Analysis of Rarefied Gas Flow Through an Arbitrary Cross Section by the Finite Element Method, S. T. Wu, J. T. Oden and T. J. Chung. Developments in Mechanics, Vol. 7, pp 289-299, 1973.
  17. A Numerical Solution of the Boltzmann Equation by Finite-element Technique, S. T. Wu, G. Aguirre-Ramirex and J. T. Oden, Rarefied Gas Dynamics, Vol. II, p 875, (S. Nocilla and C. Cercignani, eds.), Tecnico Scientifica, Pisa, Italy, 1971
  18. Unsteady MHD Flow in an Arbitrary Ducts by Point-matching Method, S. T. Wu and D. R. Jeng, AIAA J., 7(8), 1969.

Proceedings and Conference Papers

  1. Magnetohydrodynamic (MHD) Modelling of Solar Active Phenomena Via Numerical Methods, S. T. Wu, Developments in Theoretical and Applied Mechanics, Volume XIV, (S. Y. Wang, R. M. Hackett, S. L. Deleeuw, and A. M. Smith, eds.), School of Engineering, University of Mississippi Press, 62-70, 1988.
  2. A Generalized Pressure-Velocity Coupling Scheme for Analysis of Compressible and Incompressible Flows, by G. W. Burgreen, C. P. Chen, and S. T. Wu, in Developments in Mechanics, Appendix, 1987.
  3. A Computational Study of Multiple Jet and Wall Interaction, C. W. Campbell, S. D. Bai, and S. T. Wu, Developments in Mechanics, Vol. 13, Proceedings of the 19th Midwestern Mechanics Conference, Ohio State University, Columbus, OH, September 9-11, 1985.
  4. An Adaptive Grid Finite Difference Method for Transient Magnetohydrodynamics (MHD) Flows, by S. Panitchob and S. T. Wu, Proceedings of the 19th Midwestern Mechanics Conference, Developments in Mechanics, Vol. 13, 236-237, September 9-11, 1985.
  5. Numerical Study of 2-D Non-plane MHD Wave Propagation in a Supersonic, Super-alfvenic Magnetohydrohynamics Flow, S. Han, S. T. Wu, J. Smith, and M. Dryer. April 1984. AIAA Paper No 84-1598, Proceedings of the AIAA 17th Fluid Dynamic Plasmadynamics and LASER Conference, Snowmass, CO, 1988.
  6. A Numerical Simulation of Three-dimensional Transient Ideal Magnetohydrodynamic Flow, S. T. Wu, S. M. Han, S. Panitchob, and M. Dryer, Proceedings of SECTAM XII, Vol. II, May 1984.
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Solar Energy

Journal Publications

  1. Enhancement of Thermal Stratrifications in a Liquid Storage Tank by a Horizontal Baffle, S. M. Han, and S. T. Wu, Proceedings of the 23rd National Heat Transfer Conference, Fundamentals of Forced and Mixed Convection, HTD-Vol. 42, (F. A. Kulacki and R. D. Boyd, eds.), ASME, New York, New York, 1985.
  2. A Numerical Study of Flow and Temperature Stratifications Arbitrary Reynolds and Grushof Numbers in a Thermal Storage Tank, S. T. Wu, J. of Solar Energy Engineering, 1984.
  3. A Numerical Study of the Natural Convection in a Rectangular Enclosure with Various Aspect Ratios and Inclination Angles for a Solar Energy System, K. L. Guo, S. T. Wu, ASME Solar Energy, Solar Engineering, 1984.
  4. Numerical Study of Flow and Temperature Stratifications in a Liquid Thermal Storage Tank, S. T. Wu, Adv. in Heat Transfer AICHE, New York, New York,1981.

Proceedings and Conference Papers

  1. Transient Non-Newtonian Flow and Heat Transfer, D. Somogyi and S. T. Wu, in Thirteenth Southeastern Conference on Theoretical and Applied Mechanics, Proceedings, Vol. I, 142-194, University of South Carolina Press, 1986.
  2. An Experimental and Numerical Study of Liquid Thermal Storage Tanks on the Performance of Solar Energy Systems, S. M. Han, S. T. Wu, William Reid, and D. L. Christensen, International Solar Energy Conference, Denver, Colorado, August 1979.
  3. The Effects of Thermal Stratification in Water Storage Tank for the Performance of a Solar Hot Water System, S. T. Wu, S. M. Han and D. L. Christensen, Proceedings of the 14th Annual Meeting of the Southeastern Seminar on Thermal Science, North Carolina State University, April 6-7, 1978
  4. Computer Simulation of a Solar Energy System with a Viscous-entrainment Liquid Storage Tank, Application of Solar Energy-1978, (S. T. Wu, D. L. Christensen and R. H. Head, eds.), UAH Press, Huntsville, AL, 1978.
  5. Experimental and Numerical Study of Liquid Thermal Storage Tank Models, S. T. Wu, S. M. Han, D. L. Christensen, and William Reid, Proceedings of the 1978 Annual Meeting of American Section of the International Solar Energy Society Conference, Denver, Colorado, August 28-31, 1978.
  6. A Liquid Solar Energy Storage Tank Model. I. Formulation of a Mathematical Model, S. T. Wu and S. M. Han, ASME Paper, 1978 Winter Annual Meeting of American Society of Mechanical Engineers, New York, 1978.
  7. Experimental and Numerical Studies of Thermal Stratification in Water Tanks, S. T. Wu, Proceedings of 3rd Annual Solar Heating and Cooling Research and Development Branch Contractor's Meeting, U. S. Department of Energy, Washington, DC, 1978.
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Book Reviews

  1. Wave Motion, J. Billingham and A. C. King, Cambridge University Press, New York, 2000, Reviewed by S. T. Wu, Applied Mathematics Review, 2001.
  2. Hyperbolic and Viscous Conservation Laws by T. P. Liu, SIAM, Philadelphia, PA, Reviewed by S. T. Wu, Applied Mechanics Review, 2000.
  3. Boundary Element Method: Fundamentals and Applications, F. Paris, et al., Oxford UP, New York, 1997, Reviewed by S. T. Wu, Applied Mechanics Reviews, 51(2), B11, 1997.
  4. MHD Structures and Turbulence in the Solar Wind, Observations and Theories, by C.y. Tu and E. Marsch, Kluwer Academic Publishers, Durdrecht, 1995, Reviewed by S.T Wu, Space and Science Review, Vol. 76, 1996.
  5. Conservation Laws in Variational Thermo-Hydrodynamics, by S. Sieniutycz, Kluwer Academic Publishers, Norwell, MA, 1994, Reviewed by S.T. Wu, Applied Mechanics Reviews, Vol. 49, No. 2, February, 1996.
  6. Mathematical Theory of Oil and Gas Recovery: With Applications to ex-USSR Oil and Gas Fields, by P. Bedrikovetsky, Klewer Academic Publishers, Norwell MA,1993, Reviewed by S.T. Wu, American Mechanical Reviews, ASME, 48(10) B148, October 1995.
  7. Turbulence and Combustion, V. R. Kuznetsov, et al., Applied Mechanics Reviews, ASME, 1991.
  8. Non-Newtonian Fluid Mechanics (Transl from German by J. C. Havery) - G. Bohme (Hoschschule de Bundeswehr Hamburg, Hamburg, FRG) Elsevier, New York, 1987. Reviewed by S. T. Wu, 1988.
  9. Numerical Solution of Partial Differential Equations in Science and Engineering, by Leon Lapidus and George F. Pinder, John Wiley and Sons, New York, 1982, Review published in Review of Applied Mechanics.
  10. Numerical Heat Transfer and Fluid Flows, by Suhas V. Patankar, Hemisphere Publishing Co., New York, 1980, Review published in Review of Applied Mechanics.
  11. Perturbation Methods in Applied Mathematics, by J. Kevorkian and J. D. Cole, Springer-Verlay, New York, Heidelberg, Berlin, 1981, Review published in Review of Applied Mechanics.
  12. Principles of Laser Plasmas, Ed. by George Bekefi, John Wiley and Sons, Inc., New York, 1976, Review published in Review of Applied Mechanics.
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Nonrefereed Publications

  1. Teaching Engineering in the 21st Century: An example of a New Aerospace Curriculum, S.T. Wu, D.B. Landrum, and J. Stensby, Proceedings, 1995 International Conference on Engineering Education Impact of New Technology on Engineering Education, pp 111-126, May 18-20, 1995, Taipei, Taiwan, R.O.C.
  2. Dynamical Responses of the Transition Region Due to Emerging Flux. S. T. Wu, M. T. Song, and C. C. Cheng, Bulletin of the American Astronomical Society, 24(2), 1992.
  3. A Study of Coronal Interplanetary Coronal Mechanisms, Air Force Office of Scienctific Research, Final Report, ASOSR-88-0013. 1990.
  4. Study to Determine Mission Configuration for Future Payloads for Spacelab Missions and Space Plasma Physics Experiments Working Group, Final Report, National Aeronautics and Space Administration, Marshall Space Flight Center, Final Report, NAS8-34953, 1988.
  5. MHD Modeling of Energy Build-up Due to Photospheric Shearing Motion and Its Relation to Flare Prediction Criteria, Final Report, Hanscom Air Force Base, Massachusetts, AFGL-TR-87-0029, F19628-83-K-0019, 1987.
  6. A Numerical Iterative Method of Studying Two-Dimensional Natural Convection Problems. Guo Kuanliang and S. T. Wu. Journal of Engineering Thermoplastics, Vol. 4, No. 4, November 1983.
  7. MHD Modeling of Interplanetary Disturbances Between the Sun and Earth, AFGL-TR-820396, Environmental Research Paper No. 816. 1983.
  8. Vector Magnetic Field Analysis of Lorentz Forces Acting in Solar Atmosphere, Final Report, Air Force Geophysics Laboratory, Hanscom AFB, MASS, 1983.
  9. Preliminary Studies of Solar Advance Observatory and Solar Beacon Facility, Final Report MSFC/NASA, June 1983.
  10. Solar Beacon Science Study Team Meeting, S. T. Wu, Boulder, CO, January 15-16, 1982.
  11. A Brief Status Report for the Solar Maximum Year (SMY) Project on the Study of Traveling Interplanetary Phenomena (STIP), Proceedings of International Workshop, Simeferopol, March 1981, Eds V. N. Obridko and E. V. Ivanov, Sun-Earth Council, IZN.MIRZN, USSR, Vol. I, p 13, March 1982.
  12. Solar Atmospheric Dynamics, Final Report, January 1982.
  13. Triggering Mechanism, Final Report, June 1981.
  14. Theoretical Modeling and Data Analysis for Skylab ATM Experiments (S-056) and Others, The University of Alabama in Huntsville, 1981,
  15. The Numerical and Experimental Studies of Liquid Storage Tank Thermal Stratification for a Solar Energy System, Final Report, DOE ICS/34479-3, U. S. Department of Energy, with S. M. Han. 1981.
  16. Dynamic Simulation of Coronal Mass Ejections, UAH Research Report No. 240, The University of Alabama in Huntsville, with R. S. Steinolfson, 1980.
  17. Report on Critical Review of Solar-Terrestrial Physical Connective Chains, UAH Report, June 1, 1979.
  18. The Summary of the Panel reports from the University of Alabama in Huntsville/ NASA Workshop, S. T. Wu and Samuel Morgan, Joe Wheeler State Park Resort, Alabama, August 21-25, 1978.
  19. Proceedings of UAH/NASA Workshop on the Use of a Tethered Satellite System, School of Science and Engineering, The University of Alabama in Huntsville, June 1978.
  20. Proceedings of UAH/NASA Workshop on Space Platform, School of Science and Engineering, The University of Alabama in Huntsville, October 1978.
  21. A Brief Summary on the Theoretical and Experimental Study of Liquid Solar Energy Storage Tank Thermal Stratification. S. T. Wu and S. M. Han. ERDA, Chicago Operation Branch Quarterly Progress Research Report, December 1977.
  22. Ionization Effects Due to Solar Flare on Terrestrial Ionosphere, UAH Research Report. No. 188, The University of Alabama in Huntsville, July 1976.
  23. Multifluids Description of Dynamics of Upper Atmosphere, S. T. Wu and R. J. Hung, UAH Research Report No. 175, The University of Alabama in Huntsville, July 1975.
  24. A Numerical Calculation of Outward Propagation of Solar Disturbances, S. T. Wu and S. M. Han, UAH Research Report No. 151, The University of Alabama in Huntsville, February 1974.
  25. A Study of Dynamical Behaviour of Space Environment, UAH Research Report. No. 152, NAS8-25750, University of Alabama in Huntsville, March 1974.
  26. A Theoretical Model of the Wave Particle Interaction of Plasma in Space, UAH Research Report No. 155, University of Alabama in Huntsville, June 1974.
  27. Summary of the Investigation of the Physics of the Space Environment. S. T. Wu, G. L. Rao, G. Karr, R. T. Hung, and S. C. Shang. Space Environment Branch AeroAstrodynamics Laboratory NASA-Marshall Space Flight Center and School of Science and Engineering, University of Alabama in Hunstville. October 1972.
  28. Propagation of the Downward Shock Waves Generated by Infalling Dense Prominces Materials in a Realistic Solar Atmosphere, S. T. Wu and S. M. Han, UARI Research Report No. 114, The University of Alabama in Huntsville, 1972.
  29. The Responses of the Thermosphere Due to Geomagnetic Storm - A MHD Model, S. T. Wu and S. M. Han, UARI Research Report No. 122., The University of Alabama in Huntsville, 1972,
  30. Electro-magnetohydrodynamic Description of the Infall-impact Model of the Solar Flare, S. T. Wu, UARI Research Report No. 85, The University of Alabama in Huntsville, September, 1970.
  31. Aerodynamic Heating to Delta Wing with Shock Wave Interation with W. D. Lanning, TR794-9-68, Northrop Corporation, October 1969.
  32. Generalized Ohm's Law in Multifluid Systems, UARI Research Report No. 49, The University of Alabama in Huntsville, NASA-CR-95884, 1968.
  33. On the Kinetic Description of Two Phase Flow with Radiation, S. T. Wu and J. J. Brainerd, UARI Research Report No. 46., The University of Alabama in Huntsville, September 1967.
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