Super-Resolution Imaging of a Single Cold Atom on a Nanosecond Timescale
The team of academician GUO Guangcan of University of Science and Technology of China (USTC) of the Chinese Academy of Sciences has made important progress…
The team of academician GUO Guangcan of University of Science and Technology of China (USTC) of the Chinese Academy of Sciences has made important progress…
Team’s findings could help the design of industrially relevant quantum materials for sensing, computing, and communication. “Vacancy” is a sign you want to see when…
An international study shows which factors determine the speed limit for quantum computations. Which factors determine how fast a quantum computer can perform its calculations?…
Puzzling result forces physicists to rethink ‘spin-triplet’ superconductivity. A Rice University-led study is forcing physicists to rethink superconductivity in uranium ditelluride, an A-list material in…
Frequency microcombs are specialized light sources that can function as light-based clocks, rulers, and sensors to measure time, distance and molecular composition with high precision….
Sensor Based on Quantum Physics Could Detect SARS-CoV-2 Virus Mathematical simulations show the new approach may offer faster, cheaper, and more accurate detection, including identifying…
QUEST researchers overcome a major hurdle on the journey towards even more accurate optical atomic clocks. Laser beams can do more than just heat things…
Physicists from Exeter and Trondheim have developed a theory describing how space reflection and time reversal symmetries can be exploited, allowing for greater control of…
A relatively simple quantum computer design that uses a single atom to manipulate photons could be constructed with currently available components. Now, Stanford University researchers…
Researchers hope sensors using quantum tech could transform biology research. Scientists discovered nuclear magnetic resonance, a physical phenomenon where nuclei absorb and re-emit energy when…
A team of researchers from TU Delft managed to design one of the world’s most precise microchip sensors; the device can function at room temperature…
Physicists from Exeter and Zaragoza have created a theory describing how non-reciprocity can be induced at the quantum level, paving the way for non-reciprocal transport…
New approach solves a persistent problem of intermittency that has hindered use of the tiny light emitters for biological imaging or quantum photonics. Quantum dots,…
New study shows the boundary between time moving forward and backward may blur in quantum mechanics. A team of physicists at the Universities of Bristol,…
Researchers from Osaka University have improved the transfer efficiency between quantum information carriers, in a manner that’s based on well-established nanoscience and is compatible with…
How Ultracold, Superdense Atoms Become Invisible A new study confirms that as atoms are chilled and squeezed to extremes, their ability to scatter light is…
MIT researchers develop a new way to control and measure energy levels in a diamond crystal; could improve qubits in quantum computers. Physicists and engineers…
Quantum entanglement occurs when two particles appear to communicate without a physical connection, a phenomenon Albert Einstein famously called “spooky action at a distance.” Nearly…