These results are the first step for a new generation of optomechanical devices implemented with scalable silicon photon…

Technion researchers present the first observation of the Cherenkov radiation phenomenon in the two-dimensional space

The breakthrough achieved by the Technion researchers links this phenomenon to future photonic quantum computing applica…

Using lasers, researchers can directly control a property of nuclei called spin, that can encode quantum information.

In the new process developed by the MIT team, the difference in the frequency of an incoming laser beam matches the tran…

Development of variational quantum eigensolver with spin-restricted ansätze and automatically-adjusted constraints (VQE/AC method)

For a deep understanding of chemical mechanism and rational molecular design of photonic materials, it is necessary to a…

The research aims to find efficient means to integrate semiconductor chips in low-cost, low-dissipation power, and compa…

A special carbon molecule can function as multiple high-speed switches at once

By using a carefully tuned laser pulse, the researchers are able to use fullerene to switch the path of an incoming elec…

A wireless technique enables a super-cold quantum computer to send and receive data without generating too much error-causing heat.

The researchers’ square transceiver chip, measuring about 2 millimeters on each side, is placed on a quantum computer in…

Physicists at the Max Planck Institute of Quantum Optics have developed an optical mirror with a novel feature: a quantum switch consisting of a single atom

The presented work provides important ingredients for atom-light entanglement. Preparing the quantum switch in a coheren…

Peter Lodahl's group is working with a type of quantum technology that uses light particles, called photons, as micro tr…

Device is capable of manipulating multiple modes of light

The etchings, about 300-600 nanometers in size, gave the team control over the shape of light beams inside the resonator…

This breakthrough resolves a major challenge in building quantum computers large and powerful enough to tackle complex p…

UNSW Sydney research demonstrates a new type of quantum bit in silicon, called ‘flip-flop’ qubit, which can facilitate the construction of a large-scale quantum computer.

A team led by Professor Andrea Morello has just demonstrated the operation of a new type of quantum bit, called ‘flip-fl…

In the next phase of development, within the newly-announced ARC Centre of Excellence for Optical Microcombs and Breakth…

New technique could diminish errors that hamper the performance of super-fast analog optical neural networks.

An optical neural network is composed of many connected components that function like reprogrammable, tunable mirrors. T…

Researchers create visible-to-near-infrared-light lasers on silicon chips, paving the way for scientific and consumer applications

The laser-coupling technique will make high-powered, precision photonics orders of magnitude less expensive. As a result…

This device, a silicon chip with vibrations traveling through it, functions as a network between quantum devices. This m…

Scientists recreate properties of light in neutral fundamental particles called neutrons

While methods for the experimental production and analysis of orbital angular momentum in photons and electrons are well…

Publication in Nature demonstrates promising method towards building the foundation for a future quantum computer.

In this publication the researchers now do demonstrate the existence of an equal-spin pairing by using quantum dots defi…

In a study published in Communications Physics, researchers have been able to successfully demonstrate the transport of…

Using an innovative experimental setup, the physicists were able to measure that the spin of one electron points upwards…