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When light shines on certain materials, it causes them to emit electrons. This is called “photoemission” and it was discovered by Albert Einstein in 1905, winning him the Nobel Prize. But only in the last few years, with advancements in laser technology, have scientists been able to approach the incredibly short timescales of photoemission. Researchers at EPFL have now determined a delay of one billionth of one billionth of a second in photoemission by measuring the spin of photoemitted electrons without the need of ultrashort laser pulses. The discovery is published in Physical Review Letters.

Photoemission

Photoemission has proven to be an important phenomenon, forming a platform for cutting-edge spectroscopy techniques that allow scientists to study the properties of electrons in a solid. One such property is spin, an intrinsic quantum property of particles that makes them look like as if they were rotating around their axis. The degree to which this axis is aligned towards a particular direction is referred to as spin polarization, which is what gives some materials, like iron, magnetic properties.

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Our story on QC just keeps advancing as I cannot wait to see this technology on our smart devices.

Holographic atomic memory, invented and constructed by physicists from the Faculty of Physics at the University of Warsaw, is the first device able to generate single photons on demand in groups of several dozen or more. The device, successfully demonstrated in practice, overcomes one of the fundamental obstacles towards the construction of some type of quantum computer.

Completely secure, high-speed quantum communication, or even a model of quantum computer, may be among the possible applications for the new source of single photons recently built at the Faculty of Physics at the University of Warsaw (UW Physics), Poland. An unprecedented feature of this new device is that for the first time it enables the on-demand production of a precisely controlled group of photons, as opposed to just a single one.

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The Chan Zuckerberg Biohub, a non-profit medical research organization started by Priscilla Chan and Mark Zuckerberg (and not to be confused with the Chan Zuckerberg Initiative, a limited liability corporation to advance human potential) today announced it would be doling out a total of $50 million to its first cohort of disease investigators.

The Biohub brings together Bay Area universities including the University of California, Berkeley; the University of California, San Francisco; and Stanford. One of the keystones to this collaboration effort is the investigative program.

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Feb. 7 (UPI) — Astronomers at the University of Warwick have located a white dwarf pulsar — the first of its kind.

Until now, pulsars have been the domain of neutron stars. First discovered by astronomers in the 1960s, the binary stay systems are characterized by rhythmic blasts of electromagnetic radiation.

The newly identified white dwarf pulsar is called AR Scorpii, or AR Sco. It’s located in the constellation Scorpius, 380 light-years from our solar system.

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Feb. 3 (UPI) — A new image from the Hubble Space Telescope displays the beauty of a stellar death — in this case, the death of a low-mass star, similar to our sun in size.

Once a red giant, the star is currently in a transitionary phase: It’s on its way to becoming a planetary nebula. The Hubble image reveals the star’s layers of gas and dust being shed and thrown outward. The expelled material, now forming clouds, could eventually form new stars and planets.

Astronomers rarely catch dying red giants in their transitionary phase. It will only be a few thousand years before the star is a pure planetary nebula — a blip in space time.

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