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Arthur T Knackerbracket has processed the following story [phys.org]:

An international team of scientists including experts from the University of Adelaide has designed a quantum thermometer to measure the ultra-cold temperatures of space and time predicted by Einstein and the laws of quantum mechanics.

The University of Adelaide's Dr. James Q. Quach, Ramsay Fellow, School of Physical Sciences and the Institute for Photonics and Advanced Sensing (IPAS), led the investigation.

"We have designed a quantum thermometer that can measure extremely small changes in temperature," he said.

"The theoretical design of the quantum thermometer is based on the same technology used to build quantum computers."

Einstein predicted that the rate at which you perceive time to pass is dependent on the speed at which you are traveling: a person moving very fast ages at a slower rate than someone standing still. This led to his Theory of General Relativity, which says that space and time together act like a fabric that can flex and warp.

The relationship between temperature and acceleration is similar to the relationship between time and speed. Different observers moving at different acceleration would perceive different, albeit minute, difference in temperatures.

"In 1976 Canadian physicist William Unruh combined Einstein's work with the other fundamental theory of modern-day physics, quantum mechanics, and predicted that fabric of space-time has a very low temperature," said Dr. Quach.

"Intriguingly this temperature changed depending on how fast you are moving.

"To see this change in temperature, you would have to move extremely fast. To see even one degree change in temperature you would have to move close to the speed of light.

"Up until now, these extreme speeds have prevented researchers from verifying Unruh's theory."

Dr. Quach and his colleagues Professor William Munro from NTT Basic Research Laboratories in Japan and Professor Timothy Ralph from the University of Queensland published their work in the journal Physical Review Letters .

"In theory a quantum thermometer does not need to physically accelerate, instead it uses a magnetic field to accelerate the internal energy gap of the device," says Dr. Quach.

"The quantum thermometer can be built with current technology."

The team's work has important implications for future research. The quantum thermometer may be used to measure ultracold temperatures and with precision that conventional thermometers cannot.

More information:James Q. Quach et al, Berry Phase from the Entanglement of Future and Past Light Cones: Detecting the Timelike Unruh Effect, Physical Review Letters (2022).
DOI: 10.1103/PhysRevLett.129.160401 [doi.org]
Journal information:Physical Review Letters [phys.org]

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