Weizmann Institute of Science researchers present Israel’s first quantum computer

The Weizmann computer is a five-qubit machine, roughly the level achieved by IBM’s version when the company first starte…

The physicists performed frequency measurements based on variational quantum calculations on their ion trap quantum comp…

Development of light-operated perovskite optical-logic devices

The research team focused on optical-logic devices that use light with low physical energy loss as an input signal. For…

Breakthrough wafer-level optics technologies help solve a key challenge of connecting many fibers to silicon chips for datacom and telecom applications

Under this collaboration, standard CMOS wafers that implement silicon photonics chips will be post processed using EVG's…

In materials research, considerable progress is made by exploiting insights from the field of topology. Similar tools can now be applied to lasers.

A collaboration between the Technical University of Vienna and research teams from the USA has led to the development of…

Physicists of the attoworld-team at MPQ and LMU have uncovered what happens during the sampling of a light field. This helped them increase the sensitivity of the measurement by up to one order of magnitude.

This study is an important step towards novel opto-electronic applications. It paves the way to future light-field-contr…

Cognifiber is replacing computer chips with fiber-optic cables that are capable of processing complex algorithms within…

Professor Young Min Song's research team develops a large-area next-generation semiconductor device through a simple process

This technology showed strong absorption and narrowband high-speed light detection characteristics even with a simple st…

Nanowires under tension create the basis for ultrafast transistors

Using an optical laser pulse, they set electrons free inside the material. The scientists selected the light-pulse energ…

UNSW Sydney-led research paves the way for large silicon-based quantum processors for real-world manufacturing and application.

Australian researchers have proven that near error-free quantum computing is possible, paving the way to build silicon-b…

Researchers from the Photonic Systems Laboratory, headed by Professor Camille Brès, have successfully applied a novel pr…

Quantum computers could be constructed cheaply and reliably using a new technique perfected by

The researchers has shown how a simple and powerful technique called two-photon N00N states can be used to create spatia…

The City College of New York found a universal way to explain Higher Harmonic Generation by modulating the phase by nonl…

Novel Optical Component Based on Metamaterials made from Silicon Nanoparticles – Publication in Advanced Materials

The challenge consists in miniaturizing conventional optical elements, such as lenses, mirrors, prisms, or diffusers, an…

Their new model is more efficient than its predecessors and opens new applications for metasurfaces in optics

Voyant’s LiDAR system, containing thousands of optical components fabricated on a single semiconductor chip, enables its…

A newly designed microwave source could replace existing bulky control systems that hinder the scalability of quantum computers.

Researchers in Finland have developed a circuit that produces the high-quality microwave signals required to control qua…

An international study shows which factors determine the speed limit for quantum computations

The information stored in conventional computers can be thought of as a long sequence of zeros and ones, the bits. In qu…

Company showcases computational power of its fully integrated optical computing platform

Leveraging custom 3D packaging and seamless co-design efforts in its technology, Lightelligence remains the world's only…