Ultracold atomic clocks probe quantum effects on time

Scientists have developed highly precise ultracold atomic clocks that could detect how quantum physics influences the flow of time. By cooling atoms to near absolute zero, these devices aim to measure subtle time variations predicted by quantum theory. The research, published in Nature Communications, opens new avenues for testing fundamental physics.

Researchers develop new quantum sensor for dark matter detection

A team of scientists has unveiled a novel quantum sensor that could revolutionize the search for dark matter. The device, detailed in a recent study, uses advanced quantum technology to detect elusive particles with unprecedented sensitivity. This breakthrough promises to advance our understanding of the universe's hidden components.

EeroQ traps single electrons on liquid helium for qubits

A startup called EeroQ has published research demonstrating how to trap individual electrons floating on liquid helium, proposing it as a foundation for scalable quantum computing qubits. The technique leverages old physics to create isolated electron spins with potentially excellent coherence. Experts suggest this could enable rapid scaling using standard manufacturing processes.

Researchers develop room-temperature quantum sensor for gravitational waves

Scientists at MIT have created a quantum sensor capable of detecting gravitational waves at room temperature, potentially transforming astrophysics research. The device, detailed in a new Nature study, uses defects in diamonds to measure minute gravitational changes. This breakthrough could enable more accessible detection of cosmic events like black hole mergers.

Physicists confirm quantum mechanics in 73-qubit system

An international team of physicists has developed a quantum lie detector using Bell's test to verify genuine quantum behavior in large systems. By testing up to 73 qubits, they demonstrated correlations impossible in classical physics. This breakthrough affirms that quantum computers exhibit authentic quantum effects at scale.

Black Hole Merger Supports Hawking's Theorem

Astronomers announced on September 17, 2025, the detection of a black hole merger that provides strong evidence for Stephen Hawking's area theorem. Observed via gravitational waves, the event aligns with predictions that black hole surface areas cannot decrease. This bolsters fundamental physics theories amid ongoing cosmic explorations.

Scientists develop quantum sensor for detecting dark matter

Researchers at the University of Cambridge have unveiled a novel quantum sensor designed to detect dark matter particles. The breakthrough, announced on October 2, 2025, could provide new insights into the universe's unseen mass. The technology was detailed in a study published in the journal Nature.

Scientists Invent Visible Time Crystals

September 15, 2025 Ti AI ṣe iroyin

A team of physicists has created visible time crystals, a new state of matter that repeats in time rather than space. This breakthrough allows for observation with standard lab equipment. The invention was detailed in a paper released today.

New Twist on 140-Year-Old Physics Effect

September 15, 2025 Ti AI ṣe iroyin

Researchers have discovered a giant magneto-optic effect, rethinking a 140-year-old physics principle. This could lead to innovations in optical devices. The findings were published in a recent study.