A neglected force produced by neutrinos and other particles helps atomic physics measurements align with predictions of the ...

Scientists rely on two methods to measure the expansion of the universe: extrapolating from Cosmic Microwave Background (CMB) ...

Explore the intriguing 'flavour puzzle' in particle physics, uncovering the mysteries behind subatomic particles and their ...

When fundamental particles are heavier or lighter than expected, physicists' understanding of the universe can tip into the ...

One of the greatest mysteries of modern physics, the "black hole information paradox," might have finally found an elegant solution, and the answer could also reveal the origins of the mass of ...

In classrooms of 40 to 50 students, maintaining focus requires a clear visual anchor that reaches everyone. However, not all ...

Researchers at the Max Planck Institute for Quantum Optics (MPQ), Garching, in collaboration with Prof. Dr. Randolf Pohl from the Institute for Physics at Johannes Gutenberg University Mainz (JGU), ...

Michael S Turner argues that the next breakthrough in particle physics and cosmology may be just around the corner. Michael S Turner is an adjunct professor of physics and astronomy at UCLA and an ...

For decades, cosmologists believed they had a coherent framework describing how the Universe works on its largest scales. That framework is known as the Standard Model of Cosmology, or the Lambda Cold ...

This event was recorded on February 25, 2026 at Flug Forum, produced by Aspen Center for Physics, in partnership with Aspen Public Radio. A hundred years ago, we did not know what atoms were really ...

Chen Ning Yang made important contributions to the theory of solvable models in statistical mechanics, including generalizations of the Bethe Ansatz, magnetization in the Ising model, the Lee-Yang ...