特聘研究員
  • 王寳貫 博士
  • 職  稱:特聘研究員兼主任
    電  話:(02) 2653-9885 #853
    傳  真:(02) 2651-0527
    電  郵:pkwang@gate.sinica.edu.tw
  • Ph.D.(Atmospheric Sciences), 1978 -- University of California-Los Angeles
    M.S.(Atmospheric Sciences), 1975 -- University of California-Los Angeles
    B.S.(Atmospheric Sciences), 1971 -- National Taiwan University

  • 2013-訖今 Director and Distinguished Research Fellow, Research Center for Environmental Changes, Academia Sinica
    1988-訖今 Professor, University of Wisconsin-Madison
    1984-1988 Associate Professor, University of Wisconsin-Madison
    1980-1984 Assistant Professor, University of Wisconsin-Madison
    1980 Adjunct Assistant Professor, UCLA
    1978-1980 Research Atmospheric Physicist, UCLA
    1973-1978 Graduate Research Meteorologist, UCLA
     
     
  • Chairman, Air Resources Management Program, UW-Madison (1998-2002)
    Chairman, Fellowship Committee (Physical Sciences Division), UW-Madison (1997-2002)
    Chairman, Dept. of Atmospheric and Oceanic sciences, UW-Madison (1994-1997)
    Associate Chair, Undergrad. Affairs, Dept. of Meteorology, UW-Madison (1990-1992)
    Associate Chair, Graduate Affairs, Dept. of Meteorology, UW-Madison (1986-1988)

     

     

  • Advisory Committee, Research Center for Environmental Changes, Academia Sinica (January 2004-December 2012) 
    Principal Lecturer, EUMETSAT Deep Convective Storms Workshop, Istanbul, Turkey (May 2012)
    Principal Lecturer, EUMETSAT Deep Convective Storms Workshop, Prague, Czech Republic (August 2010) 
    Research Chair Professor, National Taiwan University (summer 2005, 2007, 2008)
    Chairman, Cloud Physics Committee, American Meteorological Society (1991-1993)
    Visiting Professor, UCLA (Spring 1988)
    Visiting Professor, J. Gutenberg University of Mainz-Germany (Spring 1993)
    Visiting Professor, National Taiwan University (Fall 1993)
    Visiting Professor, MIT (Fall 1997)
    Visiting Professor, University of Ferrara-Italy (2001)
    Visiting Professor, Max-Planck Institute for Chemistry-Germany (2003)
    Advisory Committee, Interactions in Cosmic and Atmospheric Particle Systems (ICAPS), European Space Agency
    Advisory Committee, Research Center of Ocean Margin (RCOM), University of Bremen, Germany
    Advisory Committee, Center for Marine Environmental Sciences (MARUM), University of Bremen, Germany
    Panelist, NSF Major Research Instrumentation Program
    Panelist, EPA Scientific Review Panel - Atmospheric Physics & Chemistry (since 1982)
    U.S. delegation, US-China Cooperation Program for Climate Studies, 1987.
    NOAA Review Panel for Weather Modification Program
    Technical Consultant (filtration technology), Nelson Industries/Fleetguard-Cummins Filtration

  • Associate Editor, Atmospheric Research
    Editor, European Physical Journal Plus
    Editor (Geophysics), Il Nuovo Cimento C
    International Advisory Board, Terrestrial, Atmospheric and Oceanic Sciences
    Editorial advisory board, Versita Publishing (Environmental Studies), UK
    Consulting Editor, McGraw-Hill Encyclopedia of Science and Technology

  • Samuel C. Johnson Distinguished Fellowship, 1992
    Teaching Excellence, Dept. of Meteorology, UW-Madison, 1992
    Alexander von Humboldt Senior Research Award (Germany), 1993
    Fellow, American Meteorological Society, 2005
    Fellow, Taiwan (ROC) Meteorological Society, 2008
    中國時報 1996 開卷十大好書 (天與地,牛頓出版), 1996
    第一屆吳大猷科普著作獎佳作(洞察,天下文化),2002
    行政院新聞局金鼎獎佳作(洞察,天下文化),2002
    行政院新聞局金鼎獎佳作(微塵大千,經典雜誌),2005

  • 學術專書

    1. Wang, Pao K., 2002: Ice Microdynamics. Academic Press, 273pp.  
    2. Wang, Pao K., 2013: Physics and Dynamics of Clouds and Precipitation. Cambridge University Press, 467pp.
    3. 王寳貫, 1997:雲物理學。1997,國立編譯館(渤海堂印行) ,382pp.

    書籍章節

    1. Wang, P. K., 1985: Air Pollutant Measurements. Chap. 22 in Handbook of Applied Meteorology, D. D. Houghton, ed., Wiley Interscience, 667-678.
    2. Wang, P. K., and De'er Zhang, 1991: Reconstruction of the 18th century precipitation of Nanjing, Suzhou, and Hangzhou using the Clear and rain Records. in Climate Since 1500 AD, R. S. Bradley and P. D. Jones, Eds., Routledge, London , 184-209.
    3. Winkler, M., and P. K. Wang, 1994: The late Pleistocene and Holocene climate of China: A review of biogeologic evidence and a comparison with GCM climate simulations. in Global Climates Since Last Glacial Maximum, Wright et al., eds, Univ. of Minnesota Press, 221-264.
    4. Wang, Pao K., 2003: Acid Rain and Precipitation Chemistry. Encyclopedia of Water Science, Marcel-Dekker.  
    5. Wang, Pao K., 2004: Atmospheric water vapor. McGraw-Hill Year Book of Science & Technology 2004, 14-16.McGraw-Hill.
    6. Wang, Pao K., 2005: Isentropic Modeling of Atmospheric Motions. in 2005 Yearbook of Science and Technology, McGraw-Hill (in press)
    7. Wang, Pao K., 2007: The Wisconsin Dynamical/Microphysical Model (WISCDYMM) and the use of it to interpret satellite-observed storm dynamics, in Measuring Precipitation from Space EURAINSAT and the Future. Edited by V. Levizzani, Peter Bauer, and F. J. Turk, Springer, 435-446.
    8. Wang, Pao K., 2009: Jumping cirrus above severe storms. In 2009 Yearbook of Science and Technology, McGraw-Hill, 187-190.
    9. Wang, Pao K., Hsinmu Lin, Hui-Chun Liu, Mihai Chiruta, and Robert E. Schlesinger, 2009: Recent advances in research on micro- to storm-scale ice microphysical processes in clouds. In Recent Progress in Atmospheric Sciences, K. N. Liou and M. D. Chou, Ed., 419-437.
  • 雲物理動力學

    1. Wang, P. K., and H. R. Pruppacher, 1977a: Acceleration to terminal velocity of cloud and rain drops. J. Appl. Meteor., 16, 275-280.
    2. Martin, J. J., P. K. Wang, H. R. Pruppacher, and R. L. Pitter, 1981: A numerical study of the effect of electric charges on the efficiency with which planar ice crystals collect supercooled water drops. J. Atmos. Sci., 38, 2462-2469.
    3. Wang, P. K., 1982: Mathematical description of the shape of conical hydrometeors. J. Atmos. Sci.,39, 2615-2622.
    4. Wang, P. K., and S. M. Denzer, 1983: Mathematical description of the shape of plane hexagonal snow crystals. J. Atmos. Sci., 40, 1024-1028.
    5. Wang, P. K., 1983a: On the definition of collision efficiency of atmospheric particles. J. Atmos. Sci., 40, 1051-1052.
    6. Wang, P. K., C. H. Chuang, and N. L. Miller, 1985: Electrostatic, temperature, and vapor density fields surrounding stationary columnar ice crystals. J. Atmos. Sci., 42, 2371-2379.
    7. Rasmussen, R.,C. Walcek, H. R. Pruppacher, S. Mitra, J. Lew, V. Levizzani, P. K. Wang, and U. Barth, 1985: A wind tunnel investigation of the effect of an external, vertical electric field on the shape of electrically uncharged rain drops. J. Atmos. Sci., 42, 1647-1652.
    8. Wang, P. K., 1987: Two dimensional characterization of polygonally symmetric particles. J. Colloid Interf. Sci., 117, 271-281.
    9. Wang, P. K., T. J. Greenwald, and Jianlu Wang, 1987: A three parameter representation of the shape and size distributions of hailstones - A case study. J. Atmos. Sci., 44, 1062-1070.
    10. Wang, P. K., 1988: A convective diffusion model for the scavenging of submicron particles by snow crystals of arbitrary shapes- some comments and corrections. Atmos. Res. 23, 195-198.
    11. Ji, Wusheng, and P. K. Wang, 1989: Numerical simulation of three dimensional unsteady viscous flow past hexagonal ice crystals in the air - Preliminary results. Atmos. Res. 25, 539-557
    12. Ji, W., and P. K. Wang, 1991: Numerical simulation of three-dimensional unsteady viscous flow past finite cylinders in an unbounded fluid at low intermediate Reynolds numbers.  Theor. Compu. Fluid Dynam., 3, 43-59.
    13. Wang, P. K., 1992: Theoretical studies on the convective diffusion around two- and three-dimensional objects. Trends in Heat and Mass Transfer, 2,J. Menon, ed., 173-186.
    14. Johnson, D. E., P. K. Wang, and J. M. Straka, 1993: Numerical simulation of the 2 August 1981 CCOPE supercell storm with and without ice microphysics. J. Appl. Meteor., 32, 745-759.
    15. Johnson, D. E., and P. K. Wang, and J. M. Straka, 1995: A study of microphysical processes in the 2 August 1981 CCOPE supercell storm. Atmos. Res. 33, 93-123.
    16. Magradze, G. J., and P. K. Wang, 1995: A note on the closed-form mathematical description of the volume of conical hydrometeors. Atmos. Res. 39, 275-278.
    17. Wang, P. K., and Wusheng Ji, 1997: Simulation of three-dimensional unsteady flow past ice crystals J. Atmos. Sci. ,54, 2261-2274.
    18. Wang, P. K., 1997: characterization of ice particles in clouds by simple mathematical expressions based on successive modification of simple shapes. J. Atmos. Sci. 54, 2035-2041.
    19. Lin, Hsin-Mu, and Pao K. Wang, 1997: A numerical study of microphysical processes in the 21 June 1991 Northern Taiwan mesoscale precipitation system. Terres. Atmos. Oceanic Sci., ., 8, 385-404.
    20. Ji, Wusheng, and Pao K. Wang, 1998: On the ventilation coefficients of falling ice crystals at low-intermediate Reynolds numbers. J. Atmos. Sci.,56, 829-836.
    21. Wang, P. K., 1999: Three-dimensional representations of hexagonal ice crystals and hail particles of elliptical cross-sections ,J. Atmos. Sci., 56, 1089-1093.
    22. Wang, P. K., and Wusheng Ji, 2000: Collision Efficiencies of Ice Crystals at Low-Intermediate Reynolds Numbers Colliding with Supercooled Cloud Droplets: A Numerical Study. J. Atmos. Sci., 57, 1001-1009.
    23. Wang, P. K., 2002: The Kansas Green Thunderstorm of 4 October 1998. . Bull. Amer. Meteor. Soc., 83, 355-357.
    24. Wang, P. K., 2002Shape and Microdynamics of Ice Particles and Their Effects in Cirrus Clouds. Invited monograph inAdvances in Geophysics, Vol. 45, Academic Press, 1-265.
    25. Liu, H. C., P. K. Wang, and R. E. Schlesinger, 2003a: A Numerical Study of Cirrus Clouds. Part I: Model Description. J. Atmos. Sci. , 60, 1075-1084.
    26. Liu, H. C., P. K. Wang, and R. E. Schlesinger, 2003b: A Numerical Study of Cirrus Clouds. Part II: Effects of Ambient Temperature and Stability on Cirrus Evolution. J. Atmos. Sci. , 60, 1097-1119.
    27. Chiruta, M., and P. K. Wang, 2003: On the capacitance of bullet rosette crystals. J. Atmos. Sci., 60, 836-846.
    28. Wang, P. K., 2003: Moisture Plumes above Thunderstorm Anvils and Their Contributions to Cross Tropopause Transport of Water Vapor in Midlatitudes. J. Geophys. Res., 108(D6), 4194, doi: 10.1029/2003JD002581, 2003.  
    29. Wang, P. K. 2004: A cloud model interpretation of jumping cirrus above storm top, Geophys. Res. Lett., 31, L18106, doi:10.1029/2004GL020787
    30. Chiruta, M., and P. K. Wang, 2005: The capacitance of solid and hollow hexagonal ice columns. Geophys. Res. Lett., VOL. 32, L05803, doi:10.1029/2004GL021771, 2005.
    31. Wang, Pao K., 2005: The Wisconsin Dynamical/Microphysical Model (WISCDYMM) and the use of it to interpret satellite-observed storm dynamics., in MEASURING PRECIPITATION FROM SPACE EURAINSAT AND THE FUTURE. Edited by V. Levizzani, et al., bibl. (in press by Kluwer Academic Publishers)
    32. Setvak, M., R. M. Robin and P. K. Wang, 2007: Contribution of MODIS instrument to the observations of deep convective storms and stratospheric moisture detection in GOES and MSG imagery (accepted for publication in Atmospheric Research)
    33. Lin, Hsin-mu, Pao K. Wang, and Robert E. Schlesinger, 2005: Three-Dimensional Nonhydrostatic Simulations of Summer Thunderstorms in the Humid Subtropics versus High Plains. Atmos. Res., 78, 103-145.
    34. Wang, Pao K. 2007: The Thermodynamic Structure atop a Penetrating Convective Thunderstorm Atmospheric Research83, 254-262.
    35. Setvak, M., D. T. Lindsey, R. Rabin, and P. K. Wang, 2008: Indication of water vapor transport into the lower stratosphere above midlatitude convective storms: Meteosat Second Generation satellite observations and radiative transfer model simulations, Atmos. Res., 89, 170-180.
    36. Chiou-Jiu Chen and Pao K. Wang, 2009: Diffusion growth of solid and hollow hexagonal ice columns. Il Nuovo Cimento,124, 87-97.
    37. Wang, Pao K., M. Setvak, W. Lyons, W. Schmid, and H. Lin, 2009: Further evidence of deep convective vertical transport of water vapor through the tropopause, Atmos. Res., 94, 400-408.
    38. Martin Setvák, Daniel T. Lindsey, Petr Novák, Pao K. Wang, Michaela Radová, Jochen Kerkmann5, Louie Grasso2, Shih-Hao Su3, Robert M. Rabin6,7, Jindich Šástka, Zdenêk Charvat, Hana Kyznarová, 2010: Cold-ring-shaped cloud top features atop convective storms, Atmospherci Research, 97, 80-96.
    39. Wang, P. K., Shih-Hao Su.,, M. Setvak, H. M. Lin and R. Rabin, 2010: Ship wave signature at the cloud top of deep convective storms, Atmos. Res. 97, 294-302.
    40. Flossmann, A. I., V. Levizzani, and P. K. Wang, 2010: On the fundamental role of Hans Pruppacher for cloud physics and cloud chemistry. Atmos. Res., 97, 393-395.
    41. Wang, P. K., Hsin-Mu Lin; Shih-Hao Su., 2010: The Impact of Ice Microphysical Processes on the Life Span of a Midlatitude Supercell Storm, Atmos. Res. 97, 450-461.
    42. Wang, P. K., S, H. Su, Z. Charvat, J. Stastka, and H. M. Lin, 2011: Cross tropopause transport of water by mid-latitude deep convective storms: A review. Terr. Atmos, Ocean. Sci., 22, 447-462.
    43. Kubicek, A., and P. K. Wang, 2012: A numerical study of the flow fields around a typical conical graupel fallin at various inclination angles. Atmos. Res., 118, 15-26.
    44. Setvak, M., K. Bedka, D. T. Lindsey, A. Sokol, Z. Charvat, J. Stastka, and P. K. Wang, 2013: A-Train observations of deep convective storm tops. Atmos. Res., 123, 229-248.
    45. Wang, P. K., and A. Kubicek, 2013: Flow fields of graupel falling in air. Atmos. Res., 124, 158-169.
    46. Cheng, K. Y., and P. K. Wang, 2013: A numerical study of the flow fields around falling hails. Atmos. Res., 132-133, 253-263.
    47. Kai-Yuan Cheng, Pao K. Wang and Chen-Kang Wang, 2014, “A Numerical Study on the Ventilation Coefficients of Falling Hailstones”, JOURNAL OF THE ATMOSPHERIC SCIENCES, 71(7), 2625-2634. (SCI) (IF: 2.672; SCI ranking: 32.4%)
    48. Tempei Hashino, Mihai Chiruta, Dierk Polzin, Alexander Kubicek and Pao K. Wang, 2014, “Numerical simulation of the flow fields around falling ice crystals with inclined orientation and the hydrodynamic torque”, ATMOSPHERIC RESEARCH, 150, 79-96. (SCI) (IF: 2.2; SCI ranking: 39.2%)
    49. Cheng, K. Y., P. K. Wang, and C. K. Wang, 2014: A Numerical study on the ventilation coefficients of falling hailstones. J. Atmos. Sci., 71, 2625-2634.
    50. Panda J., H. Singh, P. K. Wang, R. K. Giri and A. Routray, 2014: A qualitative study of some of the meteorological features during tropical cyclone PHET using satellite observations and WRF modeling system. J. Indian Soc. Remote Sensing, 11 July 2014, DOI: 10.1007/s12524-014-0386-4
    51. Hashino, T., M. Chiruta, D. Polzin, A. Kubicek and P. K. Wang, 2014: Numerical simulation of the flow fields around falling ice crystals with inclined orientation and the hydrodynamic torque. Atmos. Res., 150, 79-96.
    52. Wang, P. K., C. C. Chueh, and C. K. Wang, 2015: : A numerical study of flow fields of lobed hailstones falling in air. Atmos. Res., 160, 1-14. 
    53. Cheng, K. Y., P. K. Wang and T. Hashino, 2015: A Numerical Study on the Attitudes and Aerodynamics of Freely Falling Hexagonal Ice Plates. J. Atmos. Sci. (submitted)
    54. Hashino, T., Cheng, K. Y., Chueh, C. C. and P. K. Wang, 2016: Numerical Study of Motion and Stability of Falling Columnar Crystals, J. Atmos. Sci., 73, 1923-1842.
    55. Chueh, C. C., T. Hashino, and P. K. Wang, 2017:A preliminary numerical study on the time-varying fall attitudes and aerodynamics of freely falling conical graupel particles. Atmos. Res., 183, 58-72.
    56. Wang, P. K., K.-Y. Cheng, M. Setvak, and C.-K. Wang, 2016: The origin of the gullwing-shaped cirrus above an Argentinian thunderstorm as seen in CALIPSO images, J. Geophys. Res. Atmos., 121, doi:10.1002/2015JD024111.
    57. Huang, Y. C., and P. K. Wang, 2017: The hydrometeor partitioning and microphysical processes over the Pacific Warm Pool in numerical modeling. Atmos. Res., 183, 308-321.
    58. Hernandez-Gonzalez, S., P. K. Wang, E. Gascon, F. Valero, and J. L. Sanchez, 2016: Latent cooling and microphysics effects in deep convection, Atmos. Res., 180, 189-199.
    59.  C.-C. Chueh, Pao K. Wang and Hashino, T., 2018: Numerical Study of Motion of Falling Conical Graupel. Atmos. Res., 199, 82-92.

    氣溶膠物理化學

    1. Wang, P. K., and H. R. Pruppacher, 1977b: An experimental determination of the efficiency with which aerosol particles are collected by water drops in subsaturated air. J. Atmos. Sci., 34, 1664-1669.
    2. Wang, P. K., S. N. Grover, and H. R. Pruppacher, 1978: On the effect of electric charges on the scavenging of aerosol particles by cloud and small rain drops. J. Atmos. Sci., 35, 1735-1743.
    3. Wang, P. K., 1979a: Particular solutions to the steady-state diffusion equation and their application to aerosol scavenging problems. Papers Meteor. Res.,2, 37-42.
    4. Wang, P. K., and H. R. Pruppacher, 1980a: The effect of an external electric field on the scavenging of aerosol particles by clouds and small rain drops. J. Coll. Interf. Sci., 75, 286-297.
    5. Wang, P. K., and H. R. Pruppacher, 1980b: On the efficiency with which aerosol particles of radius less than one micron are collected by columnar ice crystals. Pure Appl. Geophys., 118, 1090-1108.
    6. Martin, J. J., P. K. Wang, and H. R. Pruppacher, 1980a: On the efficiency with which aerosol particles of radius larger than 0.1 micron are collected by simple ice plates. Pure Appl. Geophys., 118, 1109-1129.
    7. Martin, J. J., P. K. Wang, and H. R. Pruppacher, 1980b: A theoretical determination of the efficiency with which aerosol particles are collected by simple ice plates. J. Atmos. Sci.,37, 1628-1638.
    8. Martin, J. J., P. K. Wang, and H. R. Pruppacher, 1980c: A theoretical study of the effect of electric charges on the efficiency with which aerosol particles are collected by ice crystal plates. J Colloid Interf. Sci., 78, 44-56.
    9. Walcek, C., P. K. Wang, J. H. Topalian, S. K. Mitra, and H. R. Pruppacher, 1981: An experimental test of a theoretical model designed to determine the rate at which freely falling water drops scavenge SO2 in air. J. Atmos. Sci., 38, 871-876.
    10. Wang, P. K., 1983b: Collection of aerosol particles by conducting spheres in an external electric field - continuum regime approximation. J. Coll. Interf. Sci., 94, 301-318.
    11. Wang ,P. K., 1984: An investigation of the relationship between climatic conditions and the occurrence of flying locusts infestation in China in historical time. Abst. 10th Int. Congress Biometeor., Tokyo, Japan, July 26-30, 1984, 246.
    12. Wang, P. K., 1985: Air pollutant measurements. in Handbook of Applied Meteorology, D. D. Houghton, Ed., Chap.22, 667-678. Wiley Interscience, New York.
    13. Wang, P. K., 1985b: A convective diffusion model for the scavenging of submicron particles by snow crystals of arbitrary shapes. J. de Rech. Atmos., 19, 185-191.
    14. Wang, P. K., 1985c: Brownian diffusion of charged fine particles surrounding a conducting cylinder in the presence of an external electric field. J. Aerosol Sci., 17, 201-209.
    15. Miller, N. L., and P. K. Wang, 1989: A theoretical determination of the efficiency with which aerosol particles are collected by falling columnar ice crystals. J. Atmos. Sci.,46, 1656-1663.
    16. Sauter, D. P., and P. K. Wang, 1989: An experimental study of the scavenging of aerosol particles by natural snow crystals. J. Atmos. Sci.,46, 1650-1655.
    17. Miller, N. L., and P. K. Wang, 1991: Comparison of the efficiencies with which aerosol particles are collected by planar and columnar ice crystals. Atmos. Environ., 25A, 2593-2606.
    18. Wang, P. K., and T. Jaroszczyk, 1991: The grazing collision angle of aerosol particles colliding with infinitely long circular cylinders, Aerosol Sci. Tech., 15, 149-155.
    19. Wang, P. K., and Ho Lin, 1995: Comparison between the collection efficiency of aerosol particles by individual water droplets and ice crystals in a subsaturated atmosphere. Atmos. Res. 38, 381-390.
    20. Liu, G. Z., and P. K. Wang, 1996: Numerical investigation of viscous flow fields around multi-fiber filters. Aerosol Sci. and Tech., 25, 375-391.
    21. Liu, G. Z., and P. K. Wang, 1997: Pressure drop and interception efficiency of multi-fiber filters. Aerosol Sci. and Tech., 25, 375-391.

    氣候歷史和地球物理現象

    1. Wang, P. K., 1979b: Meteorological records from ancient chronicles of China. Bull. Amer. Meteor. Soc., 60, 313-317.
    2. Wang, P.K., and G. L. Siscoe, 1980: The ancient Chinese observations on the physical phenomena attending total solar eclipse. Solar Phys., 66, 187-193.
    3. Wang, P. K., 1980a: On the possible relationship between winter thunder and climatic changes in China over the past 2,200 years. Climatic Change, 3, 37-46.
    4. Wang, P. K., and J. H. Chu, 1982: Some unusually lightning events reported in ancient Chinese literature. Weatherwise, 35, 119-122.
    5. Wang, P. K., and De'er Zhang, 1988: An introduction of some historical governmental weather records in the 18thand 19th centuries of China. Bull. Amer. Meteor. Soc., 69, 753-758.
    6. Wang, P. K., with COHMAP Members, 1988: Climatic changes of the last 18,000 years: Observations and model simulations.Science, 241, 1043-1052.
    7. Zhang, De'er, and P. K. Wang, 1989: Reconstruction of the 18th century summer precipitation series of Nanjing, Suzhou, and Hangzhou using the Clear and Rain Records of Qing Dynasty. Acta Meteor. Sinica, 3, 261-278.
    8. Peng, G., and P. K. Wang, 1989: Influence of the antarctic sea-ice on the Northwest Pacific Subtropical High and its ocean-atmosphere circulation background. Kexue Tongbao, 1989, No.1,56-58.
    9. Zhang, De'er, and P. K. Wang, 1991: A study on the reconstruction of the 18th century meiyu (plum rains) activity of Lower Changjiang(Yangtze) region of China. Science in China (B), 34, 1237-1245.
    10. Wang, Pao K., and De'er Zhang, 1990: Use of historical documents of China to reconstruct past climate. World Resource Rev., 2, 1-14.
    11. Wang, P. K., and De'er Zhang, 1991: Reconstruction of the 18th century precipitation of Nanjing, Suzhou, and Hangzhou using the Clear and rain Records. in Climate Since 1500 AD, R. S. Bradley and P. D. Jones, Eds., Routledge, London , 184-209.
    12. Wang, P. K., and De'er Zhang, 1992: Recent studies of the reconstruction of East Asian monsoon climate in the past using historical literature of China. J. Meteor. Soc. Japan, 70, 423-446.
    13. Winkler, M., and P. K. Wang, 1994: The late Pleistocene and Holocene climate of China: A review of biogeologic evidence and a comparison with GCM climate simulations. in Global Climates Since Last Glacial Maximum, Wright et al., eds, Univ. of Minnesota Press, 221-264.
    14. Wang, P. K., and G. L. Siscoe, 1995: Some early descriptions of aurorae in China. Annal. Geophis., 13, 517-521
    15. Wang, P. K., 2003: Review of solar-terrestrial relation research in China. (under preparation)

    流體動力學, 熱質轉移, 和其他

    1. Wang, P. K., 1980b: A special solution of the classical diffusion equation for fully ionized plasma. IEEE Trans. Plasma Sci., PS-8, 227-228.
    2. Wang, P. K., 1984: An Eulerian variational principle for atmospheric motions in rotating coordinates, Atomsphere-Ocean, 22, 387-392
    3. Wang, P. K., 1984: An Eulerian variational principle for atmospheric motions in rotating coordinates. Atmosphere-Ocean, 22,387-392.
    4. Wang, P. K., 1984: Calculation of the electrostatic field surrounding finite circular cylindrical conductors. IEEE Trans.Atenna Propag., AP-32, 956-962.
    5. Wang, P. K., 1985a: A potential and stream function analysis of two-dimensional steady-state convective diffusion equations involving Laplace fields. Int. J. Heat Mass Transfer, 28, 1089-1095.
    6. Ji, W., and P. K. Wang, 1991: Numerical simulation of three-dimensional unsteady viscous flow past finite cylinders in an unbounded fluid at low intermediate Reynolds numbers. Theor. Compu. Fluid Dynam., 3, 43-59.

    特邀書評

    1. Wang, P. K., 1985: Review of Weather and Climate Responses to Solar Variations ( B. McCormach, Ed., 1983, Colorado Associated University Press), EOS,66, 497-498.
    2. Wang, P. K., 1985: Review of Carbon Dioxide - Current Views and Developments in Energy/Climate Research (W. Bach et al., Eds., 1983, D. Reidel), Dynamics of Atmosphere and Oceans, 10, 259-260.
    3. Wang, P. K., 1986: Review of Quality Assurance for Environmental Measurements, STP-867 ( J. Taylor and T. Stanley, Eds., 1985, American Society for Testing and Materials), Bull. Amer. Meteor. Soc., 67, 569.
    4. Wang, P. K., 1987: Review of Atmospheric Chemical Compounds: Sources, Occurrences, and Bioassay ( T. Graedel, D. T. Hawkins, and L. D. Claxton, Eds., 1986, 732pp, Academic Press), Bull. Amer. Meteor. Soc., 68, 512.
    5. Wang, P. K., 1989: Review of The Climate of China and Global Climate ( D. Ye, C. Fu, J. Chao, and M. Yoshino, Eds., 1987, 442pp, Springer-Verlag), Bull. Amer. Meteor. Soc., 70, 301-302.
    6. Wang, P. K., 1989: Review of Synoptic Meteorology in China( Bao Chenglan, 1987, 269pp, Springer-Verlag), Bull. Amer. Meteor. Soc., 70, 185-186.
    7. Wang, P. K., 1990: Review of Environmental Consequences of Nuclear War. Vol. I: Physical and Atmospheric Effects. 2nd Ed.,(Pittock, Ackerman, Crutzen, McCracken, Sharpiro, and Turco, eds., 359pp, John Wiley & Sons), Bull. Amer. Meteor. Soc. 71, 1471-1472.
    8. Wang, P. K., 1992: Review of Global Environmental Change (R. W. Corell and P. A. Anderson, Eds., 1990, 264pp), Bull. Amer. Meteor. Soc., 73, 1290-1291.
    9. Wang, P. K., 1994: Review of Atmospheric Change-An Earth System Perspective (by T. E. Graedel and P. J. Crutzen, 1993, 446pp), Bull. Amer. Meteor. Soc., 74, 2231-2232.
    10. Wang, P. K., 1997: Review of Microphysics of Clouds and Precipitation (by H. R. Pruppacher and J. D. Klett, 1997, Kluwer Publishing), Aerosol Sci. & Technol 28, 381-382.

    Jumping Cirrus Movies

    • STEPS2000 Denver storm, 20 July 2000 (courtesy of Dr. Walter Lyons)
    • 8 August 2003 Bavaria Storm (courtesy of Dr. Willi Schmid)
  • 以下收集於上列《天與地》書中

    1. 時間與空間.牛頓雜誌,136,12-21 (September 1994)
    2. 物質宇宙.牛頓雜誌,137,12-21 (October 1994)
    3. 銀河星系.牛頓雜誌,138,16-25 (November 1994)
    4. 恆星.牛頓雜誌,139,22-31 (December 1994)
    5. 太陽.牛頓雜誌,140,12-21 (January 1995)
    6. 太陽系.牛頓雜誌,141,18-27 (February 1995)
    7. 天論思想的演變.牛頓雜誌,142,12-21 (March 1995)
    8. 大地源起.牛頓雜誌,143,16-25 (April 1995)
    9. 地球時空.牛頓雜誌,144,14-23 (May 1995)
    10. 濛濛大氣.牛頓雜誌,145,14-23.(June 1995)
    11. 世界之風,牛頓雜誌,146,12-23. (July,1995)
    12. 光怪,牛頓雜誌,147,12-21 (August,1995)
    13. 茫茫大海.牛頓雜誌,148,12-23. (September 1995).
    14. 南極、北極牛頓雜誌,149,14-25 (October 1995)
    15. 高山大川. 牛頓雜誌,150,10-21 (November 1995)
    16. 天地與人牛頓雜誌,151,22-29 (December 1995). 

    以下個別文章(第10期 ~ 第56期)刊載於《經典雜誌》,收集於上列《微塵大千》書中 

    • 第10期  太空與人類
    • 第15期  莊子鬥東郭
    • 第16期  看見一個彩色世界
    • 第18期  萬紫千紅天地藏
    • 第19期  光速奇譚
    • 第21期  宇宙極速 都是相對論惹的禍
    • 第23期  神奇光路歷程 四十二度的玄機
    • 第25期  日暈月暈與海市蜃景--拆穿光線的魔法
    • 第28期  綺麗幻景光世界
    • 第31期  神奇無邊的重力 地球之吸星大法
    • 第32期  太空人的無重世界
    • 第34期  無重過生活 太空人的另類人生
    • 第39期  波動於無形 聲音是怎麼產生的
    • 第40期  耳聽南腔北調 人類世界裏的聲音
    • 第42期  繁弦急管其來有自 器樂發聲的原理
    • 第47期  天上地下無所不在──電
    • 第49期  現代文明的螺絲釘 無所不「電」
    • 第52期  電與磁的循環相生傳奇
    • 第54期  細說雷嗔電怒
    • 第56期  莫懼天雷震石壁 解讀有趣的雷電現象

    經典雜誌 

    • 第60期  大塊噫氣 其名為風
    • 第65期  追蹤風的旅行 漫談盛行風向
    • 第68期  喚雨騰雲總是風
    • 第92期  風有多長?—漫談旋風
    • 第93期  坐看雲起時
    • 第96期  大西洋颶風
    • 第97期  冷與熱的交匯—霧的生成原理
    • 第99期  來如春夢天明去—細說露的凝結
    • 第101期 以沙為核,凝水成雪
    • 第108期 見雲知晴雨
    • 第113期 格陵蘭氣象站
    • 吸熱西行,鼓浪而來—大西洋颶風的誕生《變調爵士城》,2006,98-117。(經典雜誌出版)

    中國時報 

    科學發展 (國科會出版)

    其它 

    一種星空﹐兩般神秘﹐ 聯合文學﹐13﹐90-95 (1997) 
    二次大戰氣象秘史(譯)﹐氣象預報與分析﹐111﹐39-48 (1987)

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