Medicine & TechnologyExperts from the University of Wisconsin-Madison developed a record-breaking atomic clock that loses only one second per 300 billion years.
Crystals are made of molecules or atoms that repeat in a symmetrical three-dimensional pattern known as a lattice in which the atoms are occupying specific points in space.
While eyes were glued to French Guiana and the approaching James Webb Space Telescope launch, for several days on December 17, 2021, the spacecraft flew through the Comet C/2021 A1 Leonard's tail.
The physicists at The University of Bonn and the Technion - Israel Institute of Technology have recently devised a sophisticated experiment to find out which factors identify the speed of a quantum computer in terms of making computations.
A new study was able to control near absolute zero atoms using their wave properties similar to light. Findings are expected to be beneficial for future developments in sensor devices such as atomic clocks and interferometers.
Researchers from Columbia University has found a way to shrink qubits for quantum computers that will still retain its performance and allow for storing energy to power it,
An international team of researchers has developed a way to create a paracrystalline diamond that retains its hardness but is less fragile than ordinary diamonds that are easily cut or smashed.
Aiming to emulate the quantum characteristics of materials more realistically, researchers have figured out a way to create a lattice of light and atoms that can vibrate – bringing sound to an otherwise silent experiment.
In a new study, researchers at the Department of Energy's Lawrence Berkeley National Laboratory have found a new approach using nanotwinned titanium for sustainable manufacturing.
A new study conducted by the most pretegious institutes innovated 2D materials to gaina stronger coupling effect for the future of electronic and optoelectronic devices.
The new state of matter known as time crystals upends the laws of thermodynamics in a way that was not done before. So how do time crystals break the laws of physics, and how could it help future quantum computing studies?
Researchers from the University of Queensland have developed a revolutionary quantum microscope that allows scientists to peer into the minuscule world of complex biological structures using the science of quantum entanglement.