Chaotic sound wave propagation calculated for the first time

Previously, such data was obtained using supercomputers

Skoltech has presented an innovative approach that allows the use of high-performance parallel computing systems for accurate modeling of chaotic sound wave propagation. This was reported in the press service of the university.

Unraveling the nature of turbulence is one of the most important unsolved problems in physics. We plan to explore other wave systems, for example, large-amplitude ocean waves.
Evgeny Kochurin, Research Fellow at the Skoltech Center for Advanced Studies

Scientists have found a numerical solution to the equation describing the propagation of sound waves in turbulent conditions. Previously, such data could only be obtained using supercomputers. The new method allows for more accurate calculations using ordinary personal computers.

Experts investigated the propagation of sound waves in a nonlinear medium, similar to liquid superfluid helium at a temperature of about -270°C. Under such conditions, the gas becomes a quantum liquid, and sound waves can propagate chaotically. The calculation results coincided with observational data.

The development opens up opportunities for modeling processes in the ionospheres of stars and giant planets. Simplifying calculations also frees up supercomputer resources for other tasks.

Earlier, www1.ru reported that acoustic sensors were improved in Perm.

Read more on the topic:

Methanol will be created at oil and gas fields: Russian scientists have developed catalysts for the conversion of associated gas

A new gas processing plant with a capacity of 17.5 million cubic meters of permeate flow has started operating in Russia

A new method for processing spent nuclear fuel has been invented in Russia

2025-01-14 17:36:10 Alina Shrub
Telegram Дзен

Now on home

All news