The simulations revealed that stronger magnetic fields create lighter, slower spinning black holes, while weaker fields allow heavier, faster spinning ones. This relationship suggests black holes ...

This paper describes the eccentricity, amplitude, phase shift, angular momentum, polarization, radial path, and orbital ...

Black holes, regions of spacetime in which gravity is so strong that nothing can escape, are intriguing and extensively studied cosmological phenomena. Einstein's general theory of relativity predicts ...

Noise can be defined as any deviation from the ideal that can impact intended functionality. When it comes to semiconductors, ...

A team from the Faculty of Physics and the Centre for Quantum Optical Technologies Centre of New Technologies at the University of Warsaw has developed a new type of all-optical radio receiver based ...

The path toward realizing practical quantum technologies begins with understanding the fundamental physics that govern quantum behavior—and how those phenomena can be harnessed in real materials.

This framework enables quantitative predictions about how cellular systems convert frequency-encoded signals into precise ...

Researchers in Konstanz discovered a way to manipulate materials with light by exciting magnon pairs, reshaping their magnetic “fingerprint.” This allows non-thermal control of magnetic states and ...

In a metal like copper, however, the outer electrons swim around freely and are shared by all the atoms. That’s why ...