Quantum systems don’t work effectively under normal conditions and typically require extremely low-temperature settings. This is because, at higher temperatures, thermal energy can disrupt quantum ...

Would it be possible to control and even reverse the flow of time in a laboratory setting? While taking a trip back through ...

The study of electric dipole moments (EDMs) offers a unique window into the violation of time-reversal symmetry, an effect that, when coupled with charge-parity (CP) violation, presents fundamental ...

Recently, a research team led by Prof. Guanglei Cheng from the CAS Key Laboratory of Microscale Magnetic Resonance at the University of Science and Technology of China (USTC) achieved a breakthrough ...

Shattered glass does not leap back into your hand. Smoke from a match does not gather itself and crawl back inside. In everyday life, time feels like a one-way street, and you only get one chance to ...