Trio awarded 2025 Nobel Prize in Physics for quantum tunneling work

The 2025 Nobel Prize in Physics has been awarded to John Clarke, Michel Devoret, and John Martinis for their pioneering research on quantum tunneling in superconducting circuits. Their 1985 experiments demonstrated how quantum effects apply to complex systems, laying the foundation for modern quantum computers. Clarke expressed surprise at the recognition, noting the unexpected impact of their discovery.

New method developed for detecting dark matter particles

Scientists have introduced a novel technique to identify dark matter using advanced AI analysis of particle data. The breakthrough, detailed in a recent study, could enhance our understanding of the universe's invisible components. Led by researchers at a major university, the method promises more precise detections in future experiments.

New Twist on 140-Year-Old Physics Effect

September 15, 2025 Reported by AI

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.

Scientists Invent Visible Time Crystals

September 15, 2025 Reported by AI

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.

Scientists uncover hidden energy mechanism in M87 black hole

Astrophysicists at Goethe University Frankfurt have simulated how the supermassive black hole M87* powers its massive particle jet using a new numerical code. Their findings reveal that magnetic reconnection, alongside the traditional Blandford-Znajek mechanism, extracts rotational energy from the black hole. This discovery explains the immense jets that influence galaxy evolution.

Scientists develop new method for dark matter detection

Researchers have announced a breakthrough in detecting elusive dark matter particles using advanced collider technology. The discovery, detailed in a recent Nature publication, could reshape our understanding of cosmic composition. Led by a team at CERN, the method promises more precise measurements than previous attempts.

AIP Previews Week of September 15, 2025

The American Institute of Physics outlines key events and developments in physics for the week of September 15, 2025. The preview includes policy updates, conferences, and research highlights. It aims to inform stakeholders about upcoming opportunities in the field.

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.

2025 Nobel Prize in Physics awarded for macroscopic quantum tunneling

The 2025 Nobel Prize in Physics has been awarded to John Clarke, Michel H. Devoret, and John M. Martinis for their discovery of macroscopic quantum tunneling and energy quantization in an electrical circuit. Their work, conducted in the 1980s at the University of California, Berkeley, demonstrated quantum effects on a macroscale using a Josephson junction. The laureates will share $1.1 million, with the ceremony set for December 10, 2025, in Stockholm.