Emergence of classicality states that a quantum description of a large object must be the same as its classical description, but this isn’t always so…
Exploring quantum gravity with a simple pendulum experiment
Even tiny deviations in pendulum behavior caused by quantum gravity could be clearly noticeable, say researchers.
New test could help detect effects of quantum gravity
Gaining an understanding of quantum gravity could help scientists uncover some of the Universe’s deepest mysteries.
Superconducting qubit promises breakthrough in quantum computing
A radical superconducting qubit design promises to extend their runtime by addressing decoherence challenges in quantum computing.
Satellite mission sets stage for unhackable quantum communication
Upcoming space experiment sets sights on encrypted quantum communication, which could also provide valuable insights into quantum gravity.
Breaking the quantum limit in gravitational wave detectors
Physicists working on LIGO have surpassed the quantum limit to enhance gravitational wave detectors and revolutionize astrophysical observations.
Machine learning’s quantum leap into superconductors and quantum computers
Machine learning unravels the secrets of the Gaudin model, paving the way for improved quantum technologies and a deeper understanding of quantum behavior.
Where is the boundary to the quantum world?
Exploring the interface between classical and quantum physics and where it breaks down to provide answers for some long-standing mysteries.
Harnessing entanglement and curved spacetime to make quantum radar a reality
Scientists investigate the synergy of entanglement and curved spacetime in advancing quantum radar technology for precise distance measurement.
Simulating a quantum computer with electronic circuits
What if quantum computing could be simulated using hardware that isn’t so finicky?