Several technical advances have been achieved recently in the pursuit of powerful quantum computers. Now,…
Browsing: Quantum Information Science
Quantum Information Science is an interdisciplinary field at the intersection of quantum physics, computer science, and information theory, focused on understanding how quantum systems can process, store, and transmit information. It explores the fundamental principles of quantum mechanics—such as superposition, entanglement, and quantum measurement—to develop powerful technologies like quantum computing, quantum communication, and quantum cryptography. As research progresses, Quantum Information Science is paving the way for breakthroughs in secure communication, ultra-fast computation, and new methods of simulating complex physical systems, offering transformative potential across science and technology.
A team of researchers at UCLA has set a new record for preparing and measuring…
Investigators develop a quantum photonics prototype using hyperbolic metamaterials tilted at a precise angle from…
University of Arizona researchers are using quantum entanglement to detect radio frequencies with more sensitivity…
Researchers at the National Institute of Standards and Technology (NIST) and their colleagues have for…
New Photon Source for Tap-Proof Communication Developed A new method for generating quantum-entangled photons in…
A quantum sensor could give Soldiers a way to detect communication signals over the entire…
Towards an Unhackable Quantum Internet with Harvard and MIT A quantum internet could be used…
Researchers demonstrate fast and cost-effective platform for keeping data secure. Researchers demonstrated new chip-based devices…
System “recruits” defects that usually cause disruptions, using them to instead carry out quantum operations.…
Berkeley Lab scientists tap into graphene’s hidden talent as an electrically tunable superconductor, insulator, and…
Last year, researchers at Fermilab received over $3.5 million for projects that delve into the…
A new study suggests a path to correcting the “jitters” in quantum devices, which may…
Quantum engineers from UNSW Sydney have created artificial atoms in silicon chips that offer improved…
A new device measures the tiniest energies in superconducting circuits, an essential step for quantum…
A new method determines whether circuits are accurately executing complex operations that classical computers can’t…
Argonne, University of Chicago scientists perform initial measurements through a 52-mile fiber-optic testbed. Scientists from…
Atomic clocks are used around the world to precisely tell time. Each “tick” of the…