Professor Hao-Wu Lin (center) and his research team, including doctoral student Tzu-Hao Liao (right) and Dr. Yung-Tang Chuang ...

Two cups of warm water don't make one cup of boiling water. But in the quantum world, multiple low-energy photons can combine ...

Replacing the crystal used for generating entangled photons can significantly increase quantum imaging contrast.

In a new theoretical study, physicists at the University of Oslo modeled a single photon meeting an ultrafast optical shutter ...

A mathematical model shows that attempting to sever a fundamental particle of light could conjure new ones out of thin air.

Quantum light sources may be closer to practical use: researchers at the University of Technology Sydney demonstrated that ...

While many research groups worldwide have been searching for dark matter over the past decades, detecting it has so far proved very challenging, thus very little is known about its possible ...

Novel source for quantum optics experiments could enable experiments in space or other locations with limited electricity ...

Contrary to intuition, photons do not have to be indistinguishable for maximum photon bunching to occur. Partially indistinguishable photons can exhibit pronounced bunching. Scientists working in ...

Researchers have developed a system that connects two neurons by using light-emitting enzymes and light-sensitive ion channels. Our brains are made of billions of neurons, which are connected forming ...

Entanglement between particles is a basic concept of quantum sciences. The ability to produce entangled particles in a controllable manner is essential for any quantum technology. Entanglement between ...