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?