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Posted: 2016-11-16T10:04:36Z | Updated: 2016-11-16T16:22:52Z Can You Spare A Zeptosecond? Scientists Have Just Measured The Shortest Unit Of Time Ever | HuffPost

Can You Spare A Zeptosecond? Scientists Have Just Measured The Shortest Unit Of Time Ever

It's a trillionth of a billionth of a second.
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This image shows a photon removing an electron from a helium atom, with the remaining electron most likely near the bright nucleus.
M Ossiander TUM M Schultz MPQ

A millisecond is a thousandth of a second, and a nanosecond is a billionth of a second, but there’s another measurement of time that makes both of them look slow. 

Scientists have for the first time been able to measure something in a zeptosecond, or a trillionth of a billionth of a second.

Laser physicists in Munich fired an extreme ultraviolet light pulse onto a helium atom to excite the electrons, causing one to break free a process called photoemission. At the same time, they shot an infrared laser pulse to detect the electron as it left the atom.

That’s when it happened. 

“Depending on the exact electromagnetic field of this pulse at the time of detection, the electron was accelerated or decelerated,” the Technical University of Munich  stated in a news release. “Through this change in speed, the physicists were able to measure photoemission with zeptosecond precision .”

The experiments also allowed scientists to see how energy from the photon was distributed between the two electrons in a helium atom in the moments before one of the electrons jumped out. That snapshot of a tiny moment in time will allow scientists a greater understanding of the quantum behavior of atoms. 

Many things are rooted in the interactions of individual electrons , but we handle them as a collective thing,” laser physicist Martin Schultze of Ludwig Maximilian University of Munich , who led the experiments at the Max Planck Institute of Quantum Optics,  told New Scientist. “If you really want to develop a microscopic understanding of atoms, on the most basic level, you need to understand how electrons deal with each other.”