> Ben Humphries, Ph.D. student in theoretical chemistry, at UEA said, "Our research shows that when a molecule exchanges phonons—quantum-mechanical particles of sound—with its environment, this produces a recognizable signal in the photon correlations."
> While photons are routinely created and measured in laboratories all over the world, individual quanta of vibrations, which are the corresponding particles of sound, phonons, cannot in general be similarly measured.
This is also the goal with phononic quantum computation iiuc
> The new findings provide a toolbox for investigating the world of quantum sound in molecules."
> Lead researcher Dr. Garth Jones, from UEA's School of Chemistry, said, "We have also computed correlations between photon and phonons.
> "It would be very exciting if our paper could inspire the development of new experimental techniques to detect individual phonons directly," he added.
> "Side Eye: Characterizing the Limits of POV Acoustic Eave sdropping from Smartphone Cameras with Rolling Shutters and Movable Lenses" (2023) https://arxiv.org/abs/2301.10056
Because the medium is fluidic, at least, I believe fluids are probably necessary to predict real-world phononic transmission with high accuracy; why does e.g. shortwave radio wave in and out given Earth's fluidic atmosphere?
From TA:
> Ben Humphries, Ph.D. student in theoretical chemistry, at UEA said, "Our research shows that when a molecule exchanges phonons—quantum-mechanical particles of sound—with its environment, this produces a recognizable signal in the photon correlations."
> While photons are routinely created and measured in laboratories all over the world, individual quanta of vibrations, which are the corresponding particles of sound, phonons, cannot in general be similarly measured.
This is also the goal with phononic quantum computation iiuc
> The new findings provide a toolbox for investigating the world of quantum sound in molecules."
> Lead researcher Dr. Garth Jones, from UEA's School of Chemistry, said, "We have also computed correlations between photon and phonons.
> "It would be very exciting if our paper could inspire the development of new experimental techniques to detect individual phonons directly," he added.
Phonon: https://en.wikipedia.org/wiki/Phonon
It may be inexpensive to detect phonons due to their interaction with photons, which we have inexpensive [quantum] sensors for
From https://news.ycombinator.com/item?id=37793957 :
> "Side Eye: Characterizing the Limits of POV Acoustic Eave sdropping from Smartphone Cameras with Rolling Shutters and Movable Lenses" (2023) https://arxiv.org/abs/2301.10056
https://phys.org/news/2023-10-discovery-enable-network-inter... :
> made a device capable of the conversion of quantum information between microwave and optical photons
Acoustic waves (phonons) affect electromagnetic waves (EM waves), which are also described as quantized quanta of light (photons)
Particle-Wave Duality: https://en.wikipedia.org/wiki/Wave%E2%80%93particle_duality
Because the medium is fluidic, at least, I believe fluids are probably necessary to predict real-world phononic transmission with high accuracy; why does e.g. shortwave radio wave in and out given Earth's fluidic atmosphere?