Temperature structure parameter (C(T)(2)) controls the propagation of electromagnetic and acoustic waves in the atmospheric boundary layer (ABL), but it is difficult to be measured, especially in the upper part of the ABL. In this paper, optical turbulence is simulated in a laboratory convective tank, and C(T)(2) profiles in the tank are measured by using laser beam patterns. Simulation results show that the Wyngaard's scaling relationship for C(T)(2) in the entrainment layer is only valid for large convective Richardson number (Ri > 40) cases. When Ri < 40, a new scaling relationship is proposed based on the laboratory and field measurements. The application of these relationships in estimating optical turbulence in the entrainment layer is discussed.

• 出版日期2008-12-1
• 单位安徽省气象科学研究所; 中国科学技术大学