新澳门六合彩内幕信息

新澳门六合彩内幕信息

新澳门六合彩内幕信息College of Marine Science

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Rossby Waves and Eddies:Two Sides of the Same Coin

The 鈥渄isappearance act鈥 of the eddies and waves in a laboratory. The instantaneous pictures are on the left, where jets, waves and eddies are intertwined. On the right, after time averaging: eddies and waves are gone, and only zonal jets remain visible. Waves and eddies are inseparable; they either appear or disappear together.

The 鈥渄isappearance act鈥 of the eddies and waves in a laboratory. The instantaneous pictures are on the left, where jets, waves and eddies are intertwined. On the right, after time averaging: eddies and waves are gone, and only zonal jets remain visible. Waves and eddies are inseparable; they either appear or disappear together.

By: Boris Galperin, PhD

Geophysical and planetary circulations exhibit a rich variety of zonal flows, waves, and eddies produced and maintained by various instabilities. Understanding these features qualitatively and quantitatively is critical because they govern a spate of dynamical and transport processes in planetary oceans and atmospheres.

As a reminder, flow zonation is mainly due to the restoring force associated with the latitudinal variation of the Coriolis parameter through potential vorticity (PV) conservation. PV conservation also causes a fluid particle displaced from its equilibrium latitude to return to that latitude. Fluctuations around that latitude are known as Rossby waves. Furthermore, zonal jets are hydrodynamically unstable and produce eddies in addition to waves. The eddies and the waves often appear intertwined, leaving physicists to ask this fundamental question:

Are the Rossby waves and eddies two different entities, or do they represent two sides of the same coin?

To answer the question, we designed a laboratory device at the Sapienza University in Rome in which zonal flows, Rossby waves, and eddies are generatedby applying an electromagnetic forcing to a thin layer of a rotating fluid. Various features of eddies and waves were analyzed and compared.

Our conclusion: the Rossby waves and eddies are inseparable as the former maintain the instability that sustains the latter. This symbiosis, the eddy-wave duality, visually resembles the Rossby soliton.

Read the fullstory in the Physics of Fluids [], which chose the publication as its 鈥淓ditor鈥檚 pick.鈥

The research team included Boris Galperin, PhD, associate professor, and Dr. Greg King, Senior Research Fellow, both at the 新澳门六合彩内幕信息College of Marine Science.

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