科学家在量子实验中观察“负时间”, 挑战理解, 而不暗示时间旅行。 Scientists observe "negative time" in quantum experiments, challenging understanding without suggesting time travel.

多伦多大学的科学家们在量子实验中观察到了“负时”,在量子实验中原子短暂地处于兴奋状态,停留不到零秒。 Scientists at the University of Toronto have observed "negative time" in quantum experiments, where atoms briefly remain in an excited state for less than zero seconds. 当光子穿过原子时,就可以看到这种现象,它表明量子力学的怪异,而不是时间理解的转变。 This phenomenon, seen when photons pass through atoms, suggests a quirk in quantum mechanics rather than a shift in time comprehension. 这些结果等待同侪审查,并不意味着时间旅行或违反相对论,但可以增进量子物理的理解。 The findings, awaiting peer review, don't imply time travel or violate relativity but could advance quantum physics understanding.