General Research Physics Quantum Simulating particle creation in an expanding universe using quantum computers
General Research Physics Quantum Quantum simulator combines digital and analog modes to calculate physical processes with unprecedented precision
General Research Physics Quantum Researchers observe a phase transition in a 1D chain of atoms using a quantum simulator
General Research Physics Quantum Quantum mechanics was born 100 years ago. Physicists are celebrating
General Research Physics Quantum Extending a paradox: Quantum mechanics experiment measures a pulse of light in 37 dimensions
General Research Physics Quantum Physicists Harness 13,000 Entangled Spins To Unlock the Power of the “Dark State”
General Research Physics Quantum Historic Leap: MIT Physicists Measure Quantum Geometry for First Time
Discovery General Research Physics Quantum Physicists Just Discovered a Strange Atomic Effect That Could Supercharge Quantum Computing
General Research Quantum This quantum computer built on server racks paves the way to bigger machines
General Research Physics Quantum World’s first scalable, connected, photonic quantum computer prototype developed
General Research Quantum Smart AI Platform [SAIP] Smart Communication Platform [SCOP] Smart-World How AI, Edge Computing and Quantum Internet Will Transform Connectivity
General Research Physics Quantum Atoms that measure magnetic fields could lead to new quantum sensors
Discovery General Research Physics Quantum Scientists Defy Logic with First-Ever Discovery of ‘Negative Time’ in Quantum Physics
General Research Physics Quantum Quantum theory and thermodynamics: No contradiction with new entropy definition, study says
General Research Physics Quantum Scientists create new register with thousands of entangled nuclei to scale quantum networks
General Research Physics Quantum Quantum-inspired computing drives major advance in simulating turbulence
General Research Physics Quantum Using phononic bandgap materials to suppress decoherence in quantum computers
General Research Physics Quantum New avenues in quantum research: Supramolecular chemistry detects qubit candidates
General Research Physics Quantum Trapped-ion processor demonstrates verifiable quantum random sampling
General Research Physics Quantum Harnessing atom-light interactions: A step towards stable quantum systems
General Research Physics Quantum A new experimental system to bring quantum technologies closer to students
Discovery General Research Physics Quantum Physicists Discover Hidden Quantum Forces That Could Supercharge Your Devices
General Research Novel Technology Physics Quantum Quantum Squeezing Unlocks Lightning-Fast Gas Sensors
General Research Novel Technology Physics Quantum Hydrogen Ions Are Revolutionizing Quantum Tech – Here’s How
General Research Physics Quantum Revolutionary Microscopy Unlocks the Secrets of Quantum Entanglement
General Research Physics Quantum Fox and rabbit in the quantum world: Atomic particles with antagonistic interactions
General Research Physics Quantum Quantum computer efficiently suppresses errors with two different correction codes
General Research Physics Quantum Physicists pioneer entanglement microscopy algorithm for quantum many-body systems
General Research Physics Quantum Boosted tin-based qubit signals enhance quantum communication prospects
General Research Physics Quantum Quantum thermometer uses giant Rydberg atoms to measure temperature more accurately
General Research Physics Quantum From classical to quantum: Reimagining the Mpemba effect at the atomic scale
General Research Physics Quantum Scientists succeed in trapping molecules to perform quantum operations for the first time
General Research Physics Quantum Quantum ‘umbilical cord’ links metal and insulator states in many materials, study shows
General Research Physics Quantum From Spooky Action to Real-World Tech: Columbia’s Quantum Entanglement Breakthrough
General Research Physics Quantum Quantum Physics Just Got Even Stranger: Meet the Mysterious Paraparticles
General Research Physics Quantum Freezing Time: The Revolutionary Tech Behind Reliable Quantum Computing
