The object has a very high eccentricity.
Get the latest international news and world events from around the world.
Astonishing ‘halo’ of high-energy particles around giant galaxy cluster is a glimpse into the early universe
The discovery, made with the LOFAR (LOw Frequency ARray) radio instrument in Europe, indicates that galaxy clusters, which are some of the largest structures in the known universe, spend most of their existence wrapped in envelopes of high-energy particles.
This insight gives scientists a better idea of how energy flows around galaxy clusters. And that in turn could improve our picture of cosmic evolution, study members said.
“It’s astonishing to find such a strong radio signal at this distance,” study co-leader Roland Timmerman, an astronomer at Durham University in England, said in a statement. “It means these energetic particles and the processes creating them have been shaping galaxy clusters for nearly the entire history of the universe.”
Robotic eyes mimic human vision for superfast response to extreme lighting
In blinding bright light or pitch-black dark, our eyes can adjust to extreme lighting conditions within a few minutes. The human vision system, including the eyes, neurons, and brain, can also learn and memorize settings to adapt faster the next time we encounter similar lighting challenges.
In an article published in Applied Physics Letters, researchers at Fuzhou University in China created a machine vision sensor that uses quantum dots to adapt to extreme changes in light far faster than the human eye can—in about 40 seconds—by mimicking eyes’ key behaviors. Their results could be a game changer for robotic vision and autonomous vehicle safety.
“Quantum dots are nano-sized semiconductors that efficiently convert light to electrical signals,” said author Yun Ye.
Google taps ‘world’s first’ nuclear fusion plant for 200 MW power
Google to buy 200 megawatts of fusion energy from CFS’s ARC plant, marking its first commercial fusion deal.
Quantum translator on a chip: This device converts microwaves to light
Imagine if future quantum computers could talk to each other across cities, countries, even continents without losing their spooky quantum connection. A team of researchers from the University of British Columbia (UBC) has created a device that could help us realize this future.
This device, which is just a tiny chip made of silicon, works like a universal translator, converting signals between two incompatible energies: microwaves and light. This chip can convert up to 95% of a quantum signal in both directions, and with almost zero noise.
Climate satellite MethaneSAT backed by Bezos and Google fails in space after just 1 year
MethaneSAT was designed as a sort of check against commercial climate measurements in order to help policymakers independently verify industry emissions reports. “MethaneSAT is specifically designed to catalyze methane reductions by creating unprecedented transparency,” the mission’s website states.
EDF lists 10 mission partners credited with bringing the $88 million satellite to fruition, including BAE Systems, Harvard University, the New Zealand Space Agency, Bezos Earth Fund, Google and more. Though MethaneSAT is now out of service, mission operators say they’re still committed to turning the data they were able to collect into actionable results.
“We will continue to process data that we have retrieved from the satellite and will be releasing additional scenes of global oil and gas production region-scale emissions over the coming months,” EDT officials said. “To solve the climate challenge requires bold action and risk-taking and this satellite was at the leading edge of science, technology and advocacy. ”
Laser-wielding device is like an anti-aircraft system for mosquitoes
While we may still not have flying cars, robot butlers or food replicators actually in our possession, you can now order something else you may have long dreamt of. It’s called the Photon Matrix, and it uses lasers to track and kill airborne mosquitoes.
Currently the subject of an Indiegogo campaign, the Chinese-designed device is claimed to be capable of detecting a mosquito and gauging its distance, orientation and body size within just 3 milliseconds.
It does so using a LiDAR (light detection and ranging) module which determines the locations of objects by emitting laser light pulses, then measuring how long it takes that laser light to be reflected back by whatever it hits. When a mosquito is detected in this fashion, a second galvanometer-directed laser is instantaneously used to fatally zap the insect.
Quantum computer simulates spontaneous symmetry breaking at zero temperature
For the first time, an international team of scientists has experimentally simulated spontaneous symmetry breaking (SSB) at zero temperature using a superconducting quantum processor. This achievement, which was accomplished with over 80% fidelity, represents a milestone for quantum computing and condensed matter physics.
The results are published in the journal Nature Communications.
The system began in a classical antiferromagnetic state, in which particles have spins that alternate between one direction and the opposite direction. It then evolved into a ferromagnetic quantum state, in which all particles have spins that point in the same direction and establish quantum correlations.