关键词: 水声波, 线性势流理论, 弹性冰层, 冰水交界面, 声压

Abstract: Based on the linear theory of potential flow, the propagation characteristics of ocean-based hydro-acoustic waves (also known as acoustic-gravity waves) are studied through the use of an elastic plate model to simulate an ocean-surface ice sheet, where the seawater is regarded as an inviscid compressible fluid with a rigid bottom. Approximate solutions for the displacement at the ice-water interface and the acoustic pressure in the ice-covered ocean under the pulsation of a single mass point source are derived. The effects of the thickness and lateral stress of the elastic ice sheet and the depth of fluid on the propagation of the hydro-acoustic waves are discussed. Results show that with the gradual increase in elastic ice sheet thickness, the displacements at the ice-water interface first increase, then decrease, and finally gradually approach zero, whereas the acoustic pressure of the ice-covered ocean initially remains unchanged and then gradually decreases. The lateral stress of the elastic ice sheet has little effect on both the displacement and acoustic pressure. With the increase in the depth of fluid, both the displacement and acoustic pressure tend to decrease.

Key words: hydro-acoustic wave, linear theory of potential flow, elastic ice sheet, icewater interface, acoustic p