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 […]
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 […]
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 […]
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 […]
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 […]
Researchers at the University of Chicago’s Pritzker School of Molecular Engineering have developed a groundbreaking quantum processor design that challenges traditional computational architectures. Unlike conventional quantum chips that arrange qubits in rigid 2D grids, this […]
MIT physicists have made a groundbreaking discovery about electron behavior in pentalayer graphene, revealing that electrons can exhibit fractional charges without a magnetic field—a phenomenon previously thought impossible. This research, led by Professor Senthil Todadri […]
The groundbreaking study by Rice University physicist Qimiao Si delves into the fascinating world of quantum critical metals, materials that defy conventional physics by exhibiting extraordinary behavior at low temperatures. Published in Nature Physics, the […]
The groundbreaking research by QuTech represents a significant advancement in quantum computing technology, demonstrating the successful interconnection of spin qubits over unprecedented distances. By achieving coherent logic operations between qubits positioned 250 micrometers apart on […]
Particle physicists are embarking on a fascinating journey to unravel the mysteries of quark mixing, a complex phenomenon that challenges our current understanding of fundamental particle interactions. The Standard Model of particle physics, a sophisticated […]
The scientific community has made a groundbreaking discovery about the internal structure of protons, revealing a complex quantum landscape of entanglement among quarks and gluons. Researchers at Brookhaven National Laboratory have developed a novel approach […]
Researchers at UC Santa Cruz have experimentally validated a 40-year-old theoretical prediction about electron behavior in confined spaces, marking a significant breakthrough in quantum physics. Led by physicist Jairo Velasco, Jr., the team’s study published […]
This groundbreaking research by University of Chicago scientists presents a transformative approach to quantum computing by ingeniously merging trapped atom arrays with photonic devices. Led by Assistant Professor Hannes Bernien, the research team has developed […]
Researchers at Nanyang Technological University in Singapore (NTU), have developed an innovative method to produce entangled photon pairs using extraordinarily thin materials, potentially revolutionizing quantum computing technology. Led by Prof Gao Weibo, the team successfully […]
In the ongoing race towards experimental implementations of quantum error correction (QEC), finding ways to automatically discover codes and encoding strategies tailored to the qubit hardware platform is emerging as a critical problem. Reinforcement learning […]
