Silicon of the Quantum Information Age
Silicon of the Quantum Information Age Newfound Superconductor Material Could Be the ‘Silicon of Quantum Computers’ Full release… A potentially useful material for building quantum
Silicon of the Quantum Information Age Newfound Superconductor Material Could Be the ‘Silicon of Quantum Computers’ Full release… A potentially useful material for building quantum
Joint Quantum Institute Researchers Delve into Klein Tunneling: Electrons Transiting Unimpeded Through Barriers Perfect quantum portal emerges at exotic interface Excerpts and salient points ~
University of Maryland researchers have overcome the challenge of creating multiple identical photons.
The Joint Quantum Institute and the University of Maryland have created a transistor that is activated by photon interactions. Enabled by a semiconductor chip, the device is the first single-photon transistor. Astonishingly small, it is quite capable. Millions of these transistors could reside within the space of a grain of salt. Yet, the device is able to process nearly 10 billion qubits per second. The device shows promise in advancing quantum computers.
Teams at the University of Southern Denmark, Arhaus University, and the University of Maryland’s Joint Quantum Institute have demonstrated the ability to subtract a photon of light from a laser beam. A unique property of light is its non-interaction with other photons as they pass through one-another. This property benefits quantum communication with high-success rates of transmission over long distances with encoded data.
Steering Your Photons Arguably, the biggest challenge to quantum computing is the fragility of the photon. A team at the University of Maryland’s Joint Quantum
Quantum Speed…Just How Fast is It? Researchers at the University of Maryland, Baltimore County, are asking – and trying to determine – just what speed