Have you ever imagined that sound waves can carry things? Of course, we've seen this happen in science fiction, but we've never seen it occur in real life.
In a new research, scientists have shown
the capacity of sound particles to transport mass. This also implies that these
particles may generate their own gravitational fields.
Angelo Esposito, Rafael Krichevsky, and
Alberto Nicolis utilized effective field theory methods in their study
published in the journal Physical Review Letters to validate a result reported
by researchers last year, trying to estimate mass conveyed via sound waves.
For years, scientists have claimed that
soundwaves may most certainly convey energy, but no significant evidence has
been produced to demonstrate that sound particles can also carry mass.
Nicolis and Riccardo Penco of the
University of Pennsylvania in Philadelphia revealed evidence in 2018 that sound
waves flowing through superfluid helium might carry a tiny amount of mass with
them by using quantum field theory.
Photons were found to interact with a
gravitational field, prompting them to carry mass as they traveled through the
substance.
According to the study, there is evidence
to indicate that the same findings may be predicted for the majority of
materials.
They used effective field theory to show
how a single-watt sound wave traveling through water for one second might
transport a mass of roughly 0.1 milligrams.
The research article outlines how the mass
was discovered to be a fraction of the overall mass of a wave-moving system.
It is important to note that scientists did
not really measure the amount of mass delivered by sound waves; instead, they
utilized mathematical formulae to demonstrate that it would work.
“We trust the results,” says Nicolis,
“because the mathematics describing solids and fluids is very similar. But
trying to interpret these results at the microscopic level for solids is
currently confusing.”
“This is certainly surprising,” explains
high-energy physicist Ira Rothstein of CMU. “You would have thought that
results like this in classical physics were completely understood. Hopefully,
the effect will be measured soon.”
.jpg)
0 Comments