Scientists at NIST and Chalmers University of Technology have developed a groundbreaking quantum refrigeration system that achieves record-low temperatures for quantum computing operations. This innovative approach addresses one of quantum computing’s fundamental challenges: maintaining qubits […]
Antimony Atom Brings Schrödinger’s Cat to Life
UNSW researchers have achieved a significant breakthrough in quantum computing by implementing the Schrödinger’s cat thought experiment using an antimony atom, as published in Nature Physics. Led by Professor Andrea Morello, the team developed a […]
Beyond Bosons and Fermions, Mathematical Possibility of Paraparticles
Rice University physicists have made a breakthrough in particle physics by mathematically demonstrating the possibility of paraparticles, challenging the long-held binary classification of particles as either fermions or bosons. The research, led by Associate Professor […]
Split Electrons: A Breakthrough in Topological Quantum Computing
Scientists have made a breakthrough in quantum computing by discovering how electrons can appear to split in half through quantum interference, potentially bringing us closer to creating topological quantum computers. This research, published in Physical […]
Discovery of Semi-Dirac Fermions in ZrSiS Crystals
Scientists have made a groundbreaking discovery of semi-Dirac fermions, unique quasiparticles that exhibit both massless and massive behavior depending on their direction of movement. This discovery was made in crystals of the semi-metal ZrSiS by […]
Fractional Exciton: A New Quantum Particle!
Scientists at Brown University have made a significant breakthrough by discovering a new class of quantum particles called fractional excitons, which display characteristics of both fermions and bosons. The research, published in Nature on January […]
Demonstration of High-Fidelity Integrated Spin-Wave Quantum Storage
A significant advancement in quantum technology has been achieved through the successful demonstration of an integrated spin-wave quantum memory, addressing key challenges in photon transmission loss and noise suppression. This development is particularly crucial for […]
Quantum Optics: Synthetic Atoms and Matter Waves Unlock 70-Year-Old Mystery
A research team led by Professor Dominik Schneble has made a significant breakthrough in quantum optics by discovering a new regime of cooperative radiative phenomena, addressing a question that has puzzled scientists for 70 years. […]
LHC’s Top Quarks Unlock Quantum Computing Magic
A breakthrough discovery by twin physicists Professors Chris and Martin White has revealed an unexpected connection between the Large Hadron Collider (LHC) and quantum computing through a property called “magic” in top quarks. Published in […]
Quantum Coherence Discovered in Classical Light
The scientific community has made a groundbreaking discovery that challenges our traditional understanding of classical and quantum physics. Researchers have identified quantum coherence within classical light fields, a finding that questions long-held assumptions about the […]