Researchers have made a major advance in quantum computing with a new device that is nearly 100 times smaller than the ...

This correspondence between brain state and brain responsiveness (statedependent responses) is outlined at different scales from the cellular and circuit level, to the mesoscale and macroscale level.

The microscopic processes taking place in superconductors are difficult to observe directly. Researchers at the RPTU ...

A new chip-scale device offers unprecedented control over laser frequencies, a key ingredient for large-scale quantum computing. Researchers have achieved an important step forward in quantum ...

Recently, Prof. Andrea Alù from the City University of New York and Dr. Guangwei Hu from Nanyang Technological University in ...

At the conclusion of their paper, the authors stressed the need for early standardisation internationally of the data input and output parameters, e.g. polarity, impedance, voltage, etc., as well as ...

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

A new microchip modulates laser frequencies with extreme precision, enabling scalable quantum computing architectures.

We conclude that brain states are shaped by local circuit mechanisms, large-scale connectivity and neuromodulation. A unified multiscale theory of cortical dynamics is relevant not only for ...