The incredible theoretical estimates of quantum computing’s cryptographic powers is a worry for many Bitcoin proponents. Now, a team of researchers in the United Kingdom and the Netherlands report that HODLs should feel safe — […]
Trapped ions excited with a laser beam can be used to create entangled qubits in quantum information systems, but addressing several stationary pairs of ions in a trap requires multiple optical switches and complex controls. […]
Quantum mechanical predictions challenge intuitive human thinking developed through the way that we experience the everyday world around us. Click to rate this post! [Total: 0 Average: 0]You have already voted for this article
PRESS RELEASE — The establishment of a new national project – the National Quantum Laboratory (NQL) – has been announced. The consortium created under the auspices of ROSATOM is going to adopt the international best […]
We are looking for a postdoc to work on quantum information theory with continuous variables. More specifically, we are aiming to develop the theory of non-Gaussian entanglement and investigate potential applications. Postdoc on non-Gaussian entanglement […]
In March of 2020, we reported on an award from the DARPA (Defense Advanced Research Projects Agency) to a team from the Universities Space Research Association (USRA), Rigetti Computing and NASA for work on a program […]
By Dr. Chris Mansell Shown below are summaries of a few interesting research papers in quantum computing and communications that have been published over the past month Hardware Title: Demonstration of Density Matrix Exponentiation Using […]
Researchers at the University of Manchester have succeeded in observing the so-called Schwinger effect, an elusive process that normally occurs only in cosmic events. By applying high currents through specially designed graphene-based devices, the team—based […]
PRESS RELEASE — Quantum Brilliance, a German-Australian manufacturer of innovative quantum computing hardware, today announced a joint research project with the Fraunhofer Institute for Applied Solid State Physics IAF and the University of Ulm to […]
Researchers used the 2D material hexagonal boron nitride to build much smaller capacitors for superconducting qubits, enabling them to shrink the footprint of a qubit by two orders of magnitude without sacrificing performance. Click to […]
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