Serge Haroche and David J. Wineland have independently invented and developed methods for measuring and manipulating individual particles while preserving their quantum-mechanical nature, in ways that were previously tho...
Researchers at The University of Texas at Dallas are developing nanotechnology that could lead to a new platform for solar cells, one that could drive the development of lighter, flexible and more versatile solar-powered technology than is currently available.
A University of Southampton professor is the only UK recipient of a research grant to explore the laws of physics at the beginning of time.
All the apparatus that fills the laboratory of the Microtraps group at the Centre for Quantum Technologies — three heavy metal optical benches densely packed with lasers, lenses, mirrors and above them shelves full of electronics — has been put into service to produce and probe single ions of Barium.
Scientists who study the ultra-small world of atoms know it is impossible to make certain simultaneous measurements, for example finding out both the location and momentum of an electron, with an arbitrarily high level of precision. Because measurements disturb the system, increased certainty in the first measurement leads to increased uncertainty in the second.
D-Wave Systems, Inc. today announced that it has closed a $30 million round of equity funding. Bezos Expeditions and In-Q-Tel (IQT) have joined the investment round. Bezos Expeditions is the personal investment company o...
Many quantum technologies—such as cryptography, quantum computing and quantum networks—hinge on the use of single photons. While she was at the Kastler Brossel Laboratory (affiliated with the Pierre and Marie...
Move over money, a new currency is helping make the world go round. As increasing volumes of data become accessible, transferable and, therefore, actionable, information is the treasure companies want to amass.
A research group at the International Center for Materials Nanoarchitectonics (WPI-MANA), National Institute for Materials Science (NIMS) investigated theoretically the charge-neutral Majorana fermions, and proposed a method for their manipulation.
One of the most deeply rooted concepts in science and in our everyday life is causality; the idea that events in the present are caused by events in the past and, in turn, act as causes for what happens in the future. If an event A is a cause of an effect B, then B cannot be a cause of A.
Through a new Multidisciplinary University Research Initiative (MURI) awarded by the Air Force Office of Scientific Research, researchers from Brown University will lead an effort to study new optical materials and their interactions with light quantum scale. The initiative, titled Quantum Metaphotonics and Quantum Metamaterials, will receive $4.5 million over three years, with a possible two-year extension.
The eight academics in the University’s particle physics group conduct experiments using the giant CMS and LHCb detectors, deep underground on the Swiss-French border.
Physicists have directly imaged Landau Levels – the quantum levels that determine electron behaviour in a strong magnetic field – for the first time since they were theoretically conceived of by Nobel prize winner Lev Landau in 1930.
CQT Principal Investigator Alexander Ling and his collaborators have written a feature for the more than 30,000 readers of Optics and Photonics News (OPN), a monthly magazine distributed to members of the Optical Society of America.
Stephanie Wehner from the Centre for Quantum Technologies together with Omar Fawzi from McGill University, Canada, and Mario Berta from ETH Zurich, Switzerland, have explored a new method to create randomness, hypothesizing quantum analogues of classical randomness extractors for the first time.
By Will Soutter
1 Oct 2012