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

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.

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

UC Santa Barbara physicists have engineered entangled spin systems in diamond that surpass classical sensing limits through ...

Researchers built a computer that performs AI calculations at light speed in a single shot. The breakthrough can help AI ...

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

By turning diamond flaws into quantum sensors, scientists are uncovering new ways to measure reality with unprecedented precision.

Scientists predict that global warming could make El Niño far more powerful and consistent than before.

In lead collisions at the LHC, some of the strongest electromagnetic fields in the universe bombard the inside of the beam ...

Dark matter accounts for approximately 85% of the universe’s total mass, yet its “invisibility” continues to challenge our ...