Unusual sound waves discovered in quantum liquids

July 20, 2018 by Lisa Zyga, Phys.org feature
Photograph by Hinrich Oltmanns, Pexels.com

Ordinary sound waves—small oscillations of density—can propagate through all fluids, causing the molecules in the fluid to compress at regular intervals. Now physicists have theoretically shown that in one-dimensional quantum fluids not one, but two types of sound waves can propagate. Both types of waves move at approximately the same speed, but are combinations of density waves and temperature waves.

The physicists, Konstantin Matveev at Argonne National Laboratory and Anton Andreev at the University of Washington, Seattle, have published a paper on the hybrid sound waves in liquids in a recent issue of Physical Review Letters.

"One-dimensional liquids have fascinating quantum properties that have been studied by physicists for decades," Matveev told Phys.org. "Quite surprisingly, we have been able to show that even such an essentially classical phenomenon as sound is also very unusual in these liquids. Our work implies that even the simplest classical properties of a fluid can be strongly affected by its quantum nature."

Although classical fluids generally support just one type of sound wave (a wave), one exception is liquid helium. As a superfluid, liquid helium can flow without friction, which gives it the ability to flow up the sides of its container, among other unusual properties. Unlike classical fluids, superfluid helium supports two types of sound waves—a density wave and a temperature wave—which propagate at different velocities.

As the physicists explain, in some ways one-dimensional quantum fluids are similar to , as both fluids support two types of sound waves. In other ways, however, they are quite different: instead of one sound wave being a density wave and the other sound wave being a temperature wave, the two sound waves each combine characteristics of both density and temperature waves. This hybrid nature of sound waves in one-dimensional quantum liquids is different than the nature of sound waves in any other , including . In addition, the scientists showed that the two hybrid sound waves propagate at nearly equal speeds, with the difference in speed depending on the temperature.

In the future, the physicists expect that these hybrid waves can be experimentally demonstrated in long quantum wires or atomic traps, in which one-dimensional quantum liquids are known to exist.

Explore further: Liquids are capable of supporting waves with short wavelengths only

More information: K. A. Matveev and A. V. Andreev. "Hybrid Sound Modes in One-Dimensional Quantum Liquids." Physical Review Letters. DOI: 10.1103/PhysRevLett.121.026803
Also at: arXiv:1804.02369 [cond-mat.mes-hall]

Related Stories

Superfluids: Observation of 'second sound' in a quantum gas

May 15, 2013

Second sound is a quantum mechanical phenomenon, which has been observed only in superfluid helium. Physicists from the University of Innsbruck, Austria, in collaboration with colleagues from the University of Trento, Italy, ...

Quantum microphone captures extremely weak sound

February 6, 2012

(PhysOrg.com) -- Scientists from Chalmers have demonstrated a new kind of detector for sound at the level of quietness of quantum mechanics. The result offers prospects of a new class of quantum hybrid circuits that mix acoustic ...

Neutrons uncover new density waves in fermion liquids

March 28, 2012

Scientists working at the Institut Laue-Langevin, one of the world's leading centres for neutron science, have carried out the first investigation of two-dimensional fermion liquids using neutron scattering, and discovered ...

Vorticity regulates waves in fluids

June 11, 2018

A study by Politecnico di Torino published in the journal Physical Review E demonstrates that a wave in a fluid requires amplified vorticity and not only amplified energy in order to change the nature of the flow

Recommended for you

Physicists discover new class of pentaquarks

March 26, 2019

Tomasz Skwarnicki, professor of physics in the College of Arts and Sciences at Syracuse University, has uncovered new information about a class of particles called pentaquarks. His findings could lead to a new understanding ...

Coffee-based colloids for direct solar absorption

March 22, 2019

Solar energy is one of the most promising resources to help reduce fossil fuel consumption and mitigate greenhouse gas emissions to power a sustainable future. Devices presently in use to convert solar energy into thermal ...

Physicists reveal why matter dominates universe

March 21, 2019

Physicists in the College of Arts and Sciences at Syracuse University have confirmed that matter and antimatter decay differently for elementary particles containing charmed quarks.


Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.