A single-photon source you can make at home
Quantum computing and quantum cryptography are expected to give much higher capabilities than their classical counterparts. For example, the computation power in a quantum system
Quantum computing and quantum cryptography are expected to give much higher capabilities than their classical counterparts. For example, the computation power in a quantum system
MIT professors Senthil Todadri and Xiao-Gang Wen are members of the newly established Simons Collaboration on Ultra-Quantum Matter. The effort, funded by the Simons Foundation,
MIT researchers have designed a way to generate, at room temperature, more single photons for carrying quantum information. The design, they say, holds promise for
Peter Shor, the Morss Professor of Applied Mathematics at MIT, has received the 2018 Micius Quantum Prize, which is awarded within the field of quantum computation.
A new way of measuring atomic-scale magnetic fields with great precision, not only up and down but sideways as well, has been developed by researchers
The Qubit Report (www.qubitreport.com) added content to their Business & Industry category. The content has been awaiting re-characterization as WordPress posts. Content from September, 2018,
MIT researchers have developed a novel cryptography circuit that can be used to protect low-power “internet of things” (IoT) devices in the coming age of
Eight MIT faculty members have been awarded one of the Institute’s most respected honors: the Professor Amar G. Bose Research Grant, which supports work that
Imaging deep inside biological tissue has long been a significant challenge. That is because light tends to be scattered by complex media such as biological
The dream scenario for quantum computing, when the concept was first proposed back in the 1980s, was to develop a system based on the principles