76. Cheng, Kai-Yuan; Wang, Pao K. and Wang, Chen-Kang. A numerical study on the ventilation coefficients of falling hailstones. Journal of the Atmospheric Sciences, Volume 71, Issue 7, 2014, 2625–2634. Reprint # 7234.
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| 77. Setvak, Martin; Bedka, Kristopher; Lindsey, Daniel T.; Sokol, Alois; Charvat, Zdenek; Stastka, Jindrich and Wang, Pao K. A-Train observations of deep convective storm tops. Atmospheric Research, Volume 123, 2013, pp.229-248. Reprint # 7001. |
| 78. Wang, Pao K. and Kubicek, Alexander. Flow fields of graupel falling in air. Atmospheric Research, Volume 124, 2013, pp.158-189. Reprint # 7028. |
| 79. Cheng, Kai-Yuan and Wang, Pao K. A numerical study of the flow fields around falling hails. Atmospheric Research, Volume 132, 2013, pp.253-263. Reprint # 7060. |
| 80. Wang, Pao K. and Kubicek, Alexander. Flow fields of graupel falling in air. Atmospheric Research, Volume 124, 2013, pp.158-189. Reprint # 7028. |
| 81. Cheng, Kai-Yuan and Wang, Pao K. A numerical study of the flow fields around falling hails. Atmospheric Research, Volume 132, 2013, pp.253-263. Reprint # 7060. |
| 82. Setvak, Martin; Bedka, Kristopher; Lindsey, Daniel T.; Sokol, Alois; Charvat, Zdenek; Stastka, Jindrich and Wang, Pao K. A-Train observations of deep convective storm tops. Atmospheric Research, Volume 123, 2013, pp.229-248. Reprint # 7001. |
| 83. Kubicek, Alexander and Wang, Pao K. A numerical study of the flow fields around a typical conical graupel falling at various inclination angles. Atmospheric Research, Volume 118, 2012, pp.15-26. Reprint # 6897. |
| 84. Kubicek, Alexander and Wang, Pao K. A numerical study of the flow fields around a typical conical graupel falling at various inclination angles. Atmospheric Research, Volume 118, 2012, pp.15-26. Reprint # 6897. |
| 85. Wang, Pao K.; Su, Shih-Hao; Carvat, Zdenek; Stastka, Jindrich and Lin, Hsin-Mu. Cross tropopause transport of water by mid-latitude deep convective storms: A review. TAO: Terrerstrial, Atmospheric and Oceanic Sciences, Volume 22, Issue 5, 2011, pp.447-462. Reprint # 6548. |
| 86. Wang, Pao K.; Su, Shih-Hao; Carvat, Zdenek; Stastka, Jindrich and Lin, Hsin-Mu. Cross tropopause transport of water by mid-latitude deep convective storms: A review. TAO: Terrerstrial, Atmospheric and Oceanic Sciences, Volume 22, Issue 5, 2011, pp.447-462. Reprint # 6548. |
| 87. Wang, Pao K.; Lin, Hsin-Mu and Su, Shih-Hao. The impact of ice microphysical processes on the life span of a midlatitude supercell storm. Atmospheric Research, Volume 97, Issue 4, 2010, pp.450-461. Reprint # 6339. |
| 88. Flossmann, Andrea I.; Levizzani, Vincenzo and Wang, Pao K. On the fundamental role of Hans Pruppacher for cloud physics and cloud chemistry. Atmospheric Research, Volume 97, Issue 4, 2010, pp.393-395. Reprint # 6340. |
| 89. Wang, Pao K.; Lin, Hsin-Mu and Su, Shih-Hao. The impact of ice microphysical processes on the life span of a midlatitude supercell storm. Atmospheric Research, Volume 97, Issue 4, 2010, pp.450-461. Reprint # 6339. |
| 90. Setvak, Martin; Lindsey,Daniel T.; Novak, Petr; Wang, Pao K.; Radova, Michaela; Kerkmann, Jochen; Grasso, Louis; Su, Shih-Hao; Rabin, Robert M.; Staska, Jindrich and Charvat, Zdenek. Satellite-observed cold-ring-shaped features atop deep convective clouds. Atmospheric Research, Volume 97, 2010, pp.80-96. Reprint # 6169. |
| 91. Wang, Pao K.; Su, Shih-Hao; Setvak, Martin; Lin, Hsinmu and Rabin, Robert M. Ship wave signature at the cloud top of deep convective storms. Atmospheric Research, Volume 97, 2010, pp.294-302. Reprint # 6191. |
| 92. Flossmann, Andrea I.; Levizzani, Vincenzo and Wang, Pao K. On the fundamental role of Hans Pruppacher for cloud physics and cloud chemistry. Atmospheric Research, Volume 97, Issue 4, 2010, pp.393-395. Reprint # 6340. |
| 93. Setvak, Martin; Lindsey,Daniel T.; Novak, Petr; Wang, Pao K.; Radova, Michaela; Kerkmann, Jochen; Grasso, Louis; Su, Shih-Hao; Rabin, Robert M.; Staska, Jindrich and Charvat, Zdenek. Satellite-observed cold-ring-shaped features atop deep convective clouds. Atmospheric Research, Volume 97, 2010, pp.80-96. Reprint # 6169. |
| 94. Wang, Pao K.; Su, Shih-Hao; Setvak, Martin; Lin, Hsinmu and Rabin, Robert M. Ship wave signature at the cloud top of deep convective storms. Atmospheric Research, Volume 97, 2010, pp.294-302. Reprint # 6191. |
| 95. Wang, Pao K.; Setvak, Martin; Lyons, Walter; Schmid, Willi and Lin, Hsin-Mu. Further evidences of deep convective vertical transport of water vapor through the tropopause. Atmospheric Research, Volume 94, 2009, pp.400-408. Reprint # 6130. |
| 96. Wang, Pao K.; Setvak, Martin; Lyons, Walter; Schmid, Willi and Lin, Hsin-Mu. Further evidences of deep convective vertical transport of water vapor through the tropopause. Atmospheric Research, Volume 94, 2009, pp.400-408. Reprint # 6130. |
| 97. Setvak, Martin; Lindsey, Daniel T.; Rabin, Robert M.; Wang, Pao K. and Demeterova, Alzbeta. Indication of water vapor transport into the lower stratosphere above midlatitude convective storms: Meteosat Second Generation satellite observations and radiative transfer model simulations. Atmospheric Research, Volume 89, Issue 1, 2008, pp.170-180. Reprint # 5780. |
| 98. Setvak, Martin; Lindsey, Daniel T.; Rabin, Robert M.; Wang, Pao K. and Demeterova, Alzbeta. Indication of water vapor transport into the lower stratosphere above midlatitude convective storms: Meteosat Second Generation satellite observations and radiative transfer model simulations. Atmospheric Research, Volume 89, Issue 1, 2008, pp.170-180. Reprint # 5780. |
| 99. Wang, Pao K. The thermodynamic structure atop a penetrating convective thunderstorm. Atmospheric Research, Volume 83, Issue 2, 2007, pp.254-262. Reprint # 5352. |
| 100. Setvak, Martin; Rabin, Robert M. and Wang, Pao K. Contribution of the MODIS instrument to observations of deep convective storms and stratospheric moisture detection in GOES and MSG imagery. Atmospheric Research, Volume 83, Issue 2, 2007, pp.505-518. Reprint # 5366. |