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Jun 29, 2021

Neuroscientists uncover neuronal circuitry controlling auditory sensory perception

Posted by in category: neuroscience

A team of neuroscientists at the Beckman Institute for Advanced Science and Technology, led by Baher Ibrahim and Dr. Daniel Llano, has published a study in eLife that furthers our understanding of how the brain perceives everyday sensory inputs.

“There is a traditional idea that the way that we experience the world is sort of like a movie being played on a projector. All the sensory information that is coming in is being played on our and that’s how we see things and hear things,” said Llano, a Beckman researcher and associate professor in the Department of Molecular and Integrative Physiology at the University of Illinois Urbana-Champaign.

However, quite a few studies over the years have challenged this traditional view of how we perceive the world. These studies present a new model: Rather than projecting information onto the , the thalamus might be selecting information that is already present in the cortex, based on our learned experiences.

Jun 29, 2021

A new piece of the quantum computing puzzle

Posted by in categories: computing, quantum physics

Research from the McKelvey School of Engineering at Washington University in St. Louis has found a missing piece in the puzzle of optical quantum computing.

Jung-Tsung Shen, associate professor in the Department of Electrical & Systems Engineering, has developed a deterministic, high-fidelity two-bit quantum gate that takes advantage of a new form of light. This new logic gate is orders of magnitude more efficient than the current technology.

“In the ideal case, the fidelity can be as high as 97%,” Shen said.

Jun 29, 2021

A new type of quasiparticle

Posted by in categories: computing, information science, quantum physics

Russian scientists have experimentally proved the existence of a new type of quasiparticle—previously unknown excitations of coupled pairs of photons in qubit chains. This discovery could be a step towards disorder-robust quantum metamaterials. The study was published in Physical Review B.

Superconducting qubits are a leading qubit modality today that is currently being pursued by industry and academia for quantum computing applications. However, the performance of quantum computers is largely affected by decoherence that contributes to a qubit’s extremely short lifespan and causes computational errors. Another major challenge is low controllability of large qubit arrays.

Metamaterial quantum simulators provide an alternative approach to quantum computing, as they do not require a large amount of control electronics. The idea behind this approach is to create artificial matter out of qubits, the physics of which will obey the same equations as for some real matter. Conversely, you can program the simulator in such a way as to embody matter with properties that have not yet been discovered in nature.

Jun 29, 2021

A Hippocratic Oath for your AI doctor

Posted by in categories: biotech/medical, robotics/AI

A new WHO reports lays out ethical principles for AI in medicine, but applying them won’t be easy.

Jun 29, 2021

Take a tour of the synchrotron, where electrons reach near light-speed

Posted by in category: futurism

Find out how the U.K.’s largest laboratory can accelerate electrons to nearly the speed of light.

Jun 29, 2021

Quantum-computing startup Rigetti to offer modular processors

Posted by in categories: computing, quantum physics

A quantum-computing startup announced Tuesday that its future quantum processor designs will differ significantly from its current offerings. Rather than building a monolithic processor as everyone else has, Rigetti Computing will build smaller collections of qubits on chips that can be physically linked together into a single functional processor. This isn’t multiprocessing so much as modular chip design.

The move is consequential for both Rigetti processors and quantum computing more generally.

Jun 29, 2021

Space Development Agency’s first satellites to launch on SpaceX mission

Posted by in categories: military, satellites

The first five payloads from the Space Development Agency, an organization charged with rapidly infusing emerging technologies into the U.S. military’s space programs, are among more than 80 satellites awaiting launch from Cape Canaveral Tuesday on a SpaceX Falcon 9 rocket.

Established in 2019, the Space Development Agency plans to deploy hundreds of small satellites to enable improved communications for the U.S. military. SDA’s strategy leans on the rapid development of new commercial space technology, including new types of sensors and cheaper, easier-to-produce small satellites that can be deployed in large constellations in low Earth orbit.

SDA plans to launch the first tranche of 28 satellites to provide initial infrared missile detection and low-latency data relay services in late 2022 and early 2023. Twenty of those satellites, part of the “transport layer,” will be developed by Lockheed Martin and York Space Systems for communications support. The other eight “tracking” satellites will be supplied by SpaceX and L3Harris for missile detection and tracking.

Jun 29, 2021

DataRobot raises $250 million for enterprise AI

Posted by in category: robotics/AI

The Boston-based company is now worth more than $6 billion.

Jun 29, 2021

Northrop Grumman’s Cygnus cargo ship departs space station to begin new mission in orbit

Posted by in category: space

The S.S. Katherine Johnson will then safely fall to Earth.


A Northrop Grumman Cygnus cargo spacecraft successfully undocked from the International Space Station Tuesday (June 29) at 12:25 p.m. EDT (1625 GMT), more than four months after it arrived in orbit.

The undocking aired live on NASA TV, with the spacecraft separating from the orbital outpost right on time, enabling the craft to begin a secondary mission before its planned fiery demise.

Jun 29, 2021

Clearest images emerge of galaxies headed for collision on intergalactic ‘highway’

Posted by in categories: cosmology, evolution, satellites

An international group of astronomers has created images with never-before-seen detail of a galaxy cluster with a black hole at its center, traveling at high speed along an intergalactic “road of matter.” The findings also support existing theories of the origins and evolution of the universe.

The concept that roads of thin gas connect clusters of galaxies across the universe has been difficult to prove until recently, because the matter in these ‘roads’ is so sparse it eluded the gaze of even the most sensitive instruments. Following the 2020 discovery of an intergalactic thread of gas at least 50 million light-years long, scientists have now developed images with an unprecedented level of detail of the Northern Clump—a cluster of galaxies found on this thread.

By combining imagery from various sources including CSIRO’s ASKAP radio telescope, SRG/eROSITA, XMM-Newton and Chandra satellites, and DECam , the scientists could make out a large galaxy at the center of the clump, with a black hole at its center.