For centuries, we’ve believed that time moves in only one direction—from the past to the future. Spilled milk doesn’t gather ...

The study, published in Scientific Reports, explored how a quantum system -- the world of the sub-atomic -- interacts with its environment, known as an 'open quantum system'. Researchers investigated ...

Physicists have found a simple and effective way to skip over an energy level in a three-state system, potentially leading to ...

Six University of Texas at Austin faculty members were announced today as recipients of Sloan Research Fellowships from the Alfred P. Sloan Foundation, putting UT Austin at the forefront among public ...

Physicists at the University of Surrey have uncovered evidence suggesting that, at the quantum level, time does not have a ...

Early-career scholars recognized for pioneering work in statistics, physics, chemistry, astrophysics and computer science ...

A pioneering study by University of Surrey researchers reveals that quantum systems can display reversible time, challenging ...

While the opportunities for quantum computing in life sciences are immense, it faces major challenges that must be addressed.

No matter how hard we try, we can't remember tomorrow. And physicists have no idea why. In hope of discovering the source of ...

University of Surrey researchers uncover that quantum mechanics may allow time to move in both directions, reshaping our ...

Traditional black holes, as predicted by Albert Einstein's theory of General Relativity, contain what are known as singularities, i.e. points where the laws of physics break down. Identifying how ...

Time in our lived reality is unidirectional, but a study finds quantum world can bend time and make it go in opposite ways.