Quantum Technology

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Measuring Quantum Clocks Uses Up to a Billion Times More Energy Than Their Clockwork

An Oxford-led experiment finds that converting electron ticks into classical data dominates entropy at the nanoscale.

Quantum Computing Inc. Posts Q3 Results, Bolsters Cash to Over $1.5 Billion

Germanium Made Superconducting, Enabling Wafer-Scale Quantum Circuits

Nobel Physics Prize Awards Trio for Proving Quantum Effects in Electric Circuits

Molecular Coating Boosts Single-Photon Purity by 87% in Atomically Thin Semiconductor

Newsom Signs Quantum, Fusion Bills and Announces $9 Million in Seed Funding

Physicists Simultaneously Track Position and Momentum Without Violating Heisenberg

DTU-Led Experiment Shows Proven Quantum Advantage on a Photonic Platform

First Lab Demo Redirects Quantum Uncertainty for Sharper Dual Position–Momentum Sensing

University of Tokyo Squeezes Quantum Motion of a Levitated Nanoparticle

U.S., Japan and South Korea Wrap Up Trilateral Quantum Workshops in Seoul and Tokyo

Penn Engineers Route Quantum Signals Over Live Verizon Fiber Using Standard IP

Quantum Kelvin–Helmholtz Instability Observed with Eccentric Fractional Skyrmions

Electron Ptychography Captures Atomic Thermal Vibrations in Twisted 2D Materials

Entangled Clock Network Enables First Test of Quantum Mechanics in Curved Spacetime

NIST Aluminum Ion Clock Sets New Record With 19-Decimal Accuracy

EU Unveils Quantum Strategy to Accelerate Private Funding and Secure Communications

Novel STM Technique Confirms UTe₂ as Topological Superconductor for Quantum Chips

Solitons enable room-temperature superfluorescence in hybrid perovskites