Scientists from the Indian Institute of Technology Bombay have found a way to use light to control and read tiny quantum states inside atom-thin materials. The simple technique could pave the way for ...

This article explores key mixed-signal applications, highlighting the difference between signal-path faults and rail-driven ...

From a particle smasher encircling the moon to an “impossible” laser, five scientists reveal the experiments they would run ...

MIT’s prototype points to a future where chips move data millimeters less and save orders of magnitude more energy.

A long standing mystery in spintronics has revolved around why some promising crystalline materials stubbornly refuse to ...

A new atomically precise carbon sheet combines nanoporous graphene and biphenylene stripes, offering controlled ...

Ripples maintain time-locked occurrence across the septo-temporal axis and hemispheres while showing local phase coupling, revealing a dual mode of synchrony in CA1 network dynamics.

Twist a stack of atom-thin carbon sheets by just the right amount and the material stops behaving like ordinary metal or insulator. Instead, it starts acting like a peculiar kind of superconductor ...

An investigation into the AI 171 crash reveals cascading electrical failures in the core network of a Boeing 787, raising ...

Jennifer Newstead's Big Meta to Apple Move Meta’s chief legal officer Jennifer Newstead is exiting Menlo Park and heading to ...

A continuity tester that indicates the resistance of, say, PCB traces with musically-related tones, whose pitch changes with ...