IonQ (IONQ) stands at the forefront of quantum computing, with strong government partnerships, rapid revenue growth, and a ...

Quantum defects are tiny imperfections in solid crystal lattices that can trap individual electrons and their "spin" (i.e., the internal angular momentum of particles). These defects are central to ...

Abstract: Spin-Vertical Cavity Surface Emitting Lasers (spin-VCSELs) are undergoing increasing research effort for new paradigms in high-speed optical communications and photon-enabled computing. To ...

We investigate how current noisy quantum computers can be leveraged for generating secure random numbers certified by Quantum Mechanics. While random numbers can be generated and certified in a device ...

"God does not play dice." This famous remark by Albert Einstein critiqued the probabilistic nature of quantum mechanics. Paradoxically, his theory of relativity has become an essential tool for ...

Abstract: Silicon spin quantum bits (qubits) are promising for large-scale integration in fault-tolerant quantum computers. However, key spin qubit properties are closely linked to the atom-level ...

Artist’s impression of the quantum spin Hall effect in a graphene-based spintronic device, integrated in a chip. The blue and red spheres are spin-up and spin-down electrons traveling along the edge ...

An international team of researchers from Vienna University of Technology, Rice University in Texas, the University of Toronto, Rutgers University, and several Neutron Scattering Facilities has ...

May 27, 2025 marked an important milestone in digital encryption. On that day, scientists introduced a quantum device designed to enhance how random numbers are generated, promising stronger ...

Growing evidence suggests that subatomic phenomena can shape fundamental activities in cells, including how organisms handle energy at the smallest scales. Quantum biology, as it’s being called, is no ...