1.T. Chen*, Z. Lai, S. Liu*, Y. Wang, Z.-T. Wang, X. Miao, F. An, L. Yu, F. Han, 2019, Luminescence chronology and palaeoenvironmental significance of limnic relics from the Badain Jaran Desert, northern China, Journal of Asian Earth Sciences, 177: 240. 2.W.-X. Ning, X.-Y. Liu, Z.-T. Wang*, 2019, An analytical model for the growth and migration of a transverse dune, The European Physical Journal E, 42: 42. 3.刘旭阳*,宁文晓,王振亭,2019,新月形沙丘脊线处的风沙流结构,中国沙漠,39(6): 76. 4.孟小楠,严平*,王振亭,董苗,王勇,2019,车辆碾压作用下戈壁地表起尘浓度,中国沙漠,39(1): 80. 5.Z.-T. Wang*, C.-L. Zhang, S.-B. Cen, 2018, Unsteady aeolian saltation, The European Physical Journal E, 41: 121. 6.宁文晓*,王振亭, 2018,巴丹吉林沙漠东南部典型高大沙丘形态参数分析, 福建农林大学学报(自然科学版),47: 755. 7.张春来*,宋长青,王振亭,邹学勇,王雪松, 2018,土壤风蚀过程研究回顾与展望,地球科学进展,33: 27. 8.闫天龙,王振亭,贺建桥,黄小忠,夏敦胜,王宗礼*,2018,3500年来祁连山中段天鹅湖岩芯记录的沉积环境变化,沉积学报,36: 521. 9.Z.-T. Wang*, Z.-S. An, 2017, Theoretical modeling of thermal expansion mechanism of salt-bearing rocks, Arabian Journal of Geosciences, 10: 526. 10.Z.-T. Wang*, C.-L. Zhang, H.-T. Wang, 2017, Coherent structures over flat sandy surfaces in aeolian environment, Catena, 159: 144. 11.Z.-T. Wang*, Z.-P. Lai, J.-J. Qu, 2017, Inverted relief in the Kumtagh Desert of northwest China: a mechanism to estimate wind erosion rates, Geological Journal 52: 131. 12.Z.-T. Wang*, Z.-S. An, 2016, A simple theoretical approach to the thermal expansion mechanism of salt weathering, Catena 147: 695. 13.Z.-T. Wang*, T.-Y. Chen, S.-W. Liu, Z.-P. Lai, 2016, Aeolian origin of the interdune lakes in the Badain Jaran Desert, China, Arabian Journal of Geosciences, 9(3): 190. 14.Z.-T. Wang*, 2016, A theoretical interpretation of the ``giant" dust conundrum, Science of the Total Environment, 553: 673. 15.Z.-T. Wang*, 2016, A theoretical note on aerodynamic lifting in dust devils, Icarus, 265: 79. 16.Z.-T. Wang*, C.-L. Zhang*, H.-T. Wang, 2014, Intermittency of aeolian saltation, The European Physical Journal E, 37: 126. 17.Z.-T. Wang*, Z.-P. Lai, 2014, A theoretical model on the relation between wind speed and grain size in dust transportation and its paleoclimatic implications, Aeolian Research, 13: 105. 18.X.-Z. Ren, X.-P. Yang*, Z.-T. Wang, B-Q. Zhu, D.-G. Zhang, P. Rioual, 2014, Geochemical evidence of the sources of aeolian sands and their transport pathways in the Minqin Oasis, northwestern China, Quaternary International 334-335, 165. 19.Z.-T. Wang*, C.-L. Zhang*, H.-T. Wang, 2013, Forces on a saltating grain in air, The European Physical Journal E, 36: 112. 20.Z.-T. Wang*, H.-T. Wang, Q.-H. Niu, Z.-B. Dong and T. Wang, 2011, Abrasion of Yardangs, Physical Review E, 84(3): 031304. 21.Z.-T. Wang*, Q.-H. Zhang, Z.-B. Dong and T. Wang, 2011, Upper limit of height-spacing ratio for transverse aeolian bedforms, EPL, 93(2): 29001. 22.Z.-T. Wang*, Q.-H. Zhang, Z.-B. Dong, 2011, A wind tunnel investigation on the transverse motion of aeolian sand, Sciences in Cold and Arid Regions, 3(1): 13. 23.任孝宗*, 刘陶, 王振亭, 2010, 河西沙区新月形沙丘形态参数观测, 水土保持研究, 17(1): 163. 24.任孝宗*, 王振亭, 2010, 民勤绿洲沙源分析, 宁夏大学学报, 31(1): 88. 25.Z.-T. Wang*, X.-J. Zheng, F.-H. Chen and T. Wang, 2009, Creep behavior of microbiotic crust, Sciences in Cold and Arid Regions, 1(4): 356. 26.李孝泽*, 王振亭, 陈发虎,N. Lancaster, 李志刚, 李国强, 任孝宗, 董光荣, 2009, 巴丹吉林沙漠横向沙山沉积的GPR雷达探测研究,第四纪研究 29(4): 797. 27.Z.-T. Wang*, Q.-F. Sun, X.-Z. Ren, T. Wang and F.-H. Chen, 2009, Pseudo-feathery dunes in the Kumtagh desert reclassified as linear dunes and zibars, Aeolian Research, 1(1-2): 87. 28.Z.-T. Wang*, H. Zhao, K.-C. Zhang, X.-Z. Ren, F.-H. Chen and T. Wang, 2009, Barchans of Minqin: quantifying migration rate of a barchan, Sciences in Cold and Arid Regions, 1(2): 151. 29.Z.-T. Wang*, J.-W. Zhang, Q.-H. Zhang, M.-R. Qiang, F.-H. Chen and Y.-Q. Ling, 2008, Barchans of Minqin: sediment transport, Geomorphology 96(1-2): 233. 30.Z.-T. Wang*, S.-C. Tao, Y.-W. Xie and G.-H. Dong, 2007, Barchans of Minqin: morphometry, Geomorphology, 89(3-4): 405. 31.Z.-T. Wang*, Y.-H. Zhou and X.-J. Zheng, 2006, Tensile test of natural microbiotic crust, Catena 67(2): 139. 32.Z.-T. Wang*, 2006, Influence of moisture on the entrainment of sand by wind, Powder Technology 164(2): 89. 33.王振亭*, 郑晓静, 2005, 关于跃移沙破坏生物结皮时的临界速度的理论分析, 力学学报 37(3): 313. 34.王振亭*, 郑晓静, 周又和,2004, 关于小波在力学计算中应用的几个例子,现代数学和力学MMM-IX:302. 35.Z.-T. Wang*, 2004, A note on the velocity of granular flow down a bumpy inclined plane, Granular Matter 6: 67. 36.Z.-T. Wang* and X.-J. Zheng, 2004, Theoretical prediction of creep flux in aeolian sand transport, Powder Technology 139: 123. 37.X.-J. Zheng, Z.-T. Wang* and Z.-G. Qiu, 2004, Impact craters in loose granular media, The European Physical Journal E 13: 321. 38.Z.-T. Wang* and X.-J. Zheng, 2003, A numerical simulation of fluid flowing through windbreak, Key Engineering Materials 243-244: 607. 39.王振亭*, 郑晓静, 2002, 草方格沙障尺寸分析的简单模型, 中国沙漠 22(3): 229. 40.张建平*, 王记增, 王振亭, 2001, 矩形薄板涡电流问题的两种求解方法, 兰州大学学报(自然科学版) 37(2): 41. |