Marina Radulaski's lab at the UC Davis Department of Electrical and Computer Engineering is developing devices for quantum networking. Quantum computing technology is moving closer to wide application ...

Tiny tubes of carbon that emit single photons from just one point along their length have been made in a deterministic manner by RIKEN researchers. Such carbon nanotubes could form the basis of future ...

This article is based on the webinar delivered by Dr. Craig Wall of Montana Instruments and Dr. Benjamin Pingault of the Laboratory for Nanoscale Optics at Harvard University. In this article, we’ll ...

Researchers study atomic-scale color centers in crystals to engineer qubits that transmit quantum data as photons or phonons. (Nanowerk News) With enough information, humans can make solid, bang-on ...

Tsukuba, Japan - Researchers from the Department of Applied Physics at the University of Tsukuba demonstrated second-order nonlinear optical effects in diamonds by taking advantage of internal color ...

Researchers are documenting the different temperature and proton dosages required to make defects that will further allow silicon carbide to be used for quantum technology. Silicon carbide (SiC), a ...

Prof. LI Chuanfeng, Prof. XU Jinshi and their colleagues from Prof. GUO Guangcan's group, University of Science and Technology of China (USTC) of the Chinese Academy of Sciences (CAS), realized the ...

Color center lasers are an attractive tunable laser source owing to their very broad emission spectrum. However, typically their operation is restricted to near-infrared wavelengths and cooling is ...

Researchers showed that diamonds with color center defects can act as nonlinear optical materials for second-harmonic photon generation. This discovery can pave the way for completely light-based ...