This quantum balancing act—long debated by Einstein and Bohr—was tested without traditional “spring” components, instead ...

MIT physicists perform the most precise double-slit experiment using ultracold atoms, confirming Bohr’s quantum theory over ...

A groundbreaking experiment demonstrates yet again that light exists both as a wave and a particle in the quantum world—but ...

For nearly a hundred years, one of the most celebrated minds in science, Albert Einstein, had a lingering quantum thought ...

A groundbreaking quantum experiment conducted by MIT physicists has turned a major page in the long-standing debate between ...

MIT researchers used ultracold atoms to isolate the quantum trade-off between wave interference and particle path detection.

In a striking display of quantum physics, a team of researchers has recreated one of science’s most legendary ...

The experiment showed that Bohr was definitely correct when he argued for complementarity, and that Einstein had got it wrong. The more atom-rustling that was measured, the weaker the diffraction ...

MIT physicists have performed an idealized version of one of the most famous experiments in quantum physics. Their findings ...

Unfortunately for Einstein, all work done subsequently – including experiments that used springs – does point to the interference pattern disappearing when the photon's path is detected. In the latest ...

MIT’s quantum experiment validates Bohr’s theory and disproves Einstein’s local realism using ultracold atoms and single ...

Interestingly, it has definitively resolved a long-standing debate between quantum giants Albert Einstein and Niels Bohr ...