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Feb 9, 2023
NASA is launching a new quantum entanglement experiment in space
Posted by Daniel Sunday in categories: quantum physics, space
A tech demo launching later this year are the first steps towards a possible communication system based on quantum entanglement.
Feb 9, 2023
‘AI is a serious contender’: Morgan Stanley says ‘something suggests’ the ChatGPT mania isn’t another investment fad
Posted by Daniel Sunday in category: robotics/AI
Morgan Stanley says investors’ latest obsession is here to stay. “The AI hype is worth considering seriously.”
We humans are obsessed with speed. We bred the fastest horse when we first started riding. We looked for ways to put insanely powerful engines in our cars when we first started building them.
Feb 9, 2023
Microstructure and defect engineering improves performance of lithium-ion batteries
Posted by Daniel Sunday in categories: energy, engineering, sustainability, transportation
A new North Carolina State University study, performed in collaboration with battery testing researchers at the U.S. Department of Energy’s Oak Ridge National Laboratory, shows that extremely short pulses from a high-powered laser can cause tiny defects in lithium-ion battery materials—defects that can enhance battery performance.
The technique, called nanosecond pulsed laser annealing, lasts for only 100 nanoseconds and is generated by the same type of laser used in modern-day eye surgeries. Researchers tested the technique on graphite, a material widely used in lithium-ion battery anodes, or positive electrodes. They tested the technique in batches of 10 pulses and 80 pulses and compared the differences in current capacity; power is calculated by multiplying voltage by current.
Lithium-ion batteries are widely used in portable electronic devices and electric cars. With further improvements, these batteries could have a major impact on transportation and as storage devices for renewable energy sources like wind and solar.
Feb 9, 2023
Mysterious Eruption Detected on Star Could Help Explain Fast Radio Bursts
Posted by Daniel Sunday in categories: materials, space
One of the most interesting stars in the Milky Way is still serving up more than its fair share of intrigue.
In October 2020, SGR 1935+2154, the magnetar responsible for spitting out radio signals never before detected in our home galaxy, unexpectedly slowed down.
Now, scientists believe the rotational slowdown could be evidence of a volcano-like eruption on its surface, spewing material out into space that altered the star’s environment enough to decelerate the spinning of the planet minutely.
Feb 9, 2023
A Tiny Laser Device Could Reveal Alien Life
Posted by Saúl Morales Rodriguéz in categories: alien life, futurism
A team of researchers has reduced the size of a laser-based mass spectrometer to optimize its use for future life-detection missions.
Feb 9, 2023
A Hydrodynamic Version of Superradiance
Posted by Saúl Morales Rodriguéz in category: quantum physics
Experiments reveal a hydrodynamic analog of an important effect in quantum optics called superradiance.
Feb 9, 2023
Evidence for a chiral superconductor could bring quantum computing closer to the mainstream
Posted by Saúl Morales Rodriguéz in categories: biotech/medical, computing, quantum physics
The University of Tennessee’s physicists have led a scientific team that found silicon—a mainstay of the soon-to-be trillion-dollar electronics industry—can host a novel form of superconductivity that could bring rapidly emerging quantum technologies closer to industrial scale production.
The findings are reported in Nature Physics and involve electron theft, time reversal, and a little electronic ambidexterity.
Superconductors conduct electric current without resistance or energy dissipation. Their uses range from powerful electromagnets for particle accelerators and medical MRI devices to ultrasensitive magnetic sensors to quantum computers. Superconductivity is a spectacular display of quantum mechanics in action on a macroscopic scale. It all comes down to the electrons.
Feb 9, 2023
Scientists boost quantum signals while reducing noise
Posted by Saúl Morales Rodriguéz in categories: computing, quantum physics
A certain amount of noise is inherent in any quantum system. For instance, when researchers want to read information from a quantum computer, which harnesses quantum mechanical phenomena to solve certain problems too complex for classical computers, the same quantum mechanics also imparts a minimum level of unavoidable error that limits the accuracy of the measurements.
Scientists can effectively get around this limitation by using “parametric” amplification to “squeeze” the noise—a quantum phenomenon that decreases the noise affecting one variable while increasing the noise that affects its conjugate partner. While the total amount of noise remains the same, it is effectively redistributed. Researchers can then make more accurate measurements by looking only at the lower-noise variable.
A team of researchers from MIT and elsewhere has now developed a new superconducting parametric amplifier that operates with the gain of previous narrowband squeezers while achieving quantum squeezing over much larger bandwidths. Their work is the first to demonstrate squeezing over a broad frequency bandwidth of up to 1.75 gigahertz while maintaining a high degree of squeezing (selective noise reduction). In comparison, previous microwave parametric amplifiers generally achieved bandwidths of only 100 megahertz or less.
