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Spin correlation between paired electrons demonstrated

Date:
November 23, 2022
Source:
University of Basel
Summary:
Physicists have experimentally demonstrated for the first time that there is a negative correlation between the two spins of an entangled pair of electrons from a superconductor. For their study, the researchers used spin filters made of nanomagnets and quantum dots.
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Physicists at the University of Basel have experimentally demonstrated for the first time that there is a negative correlation between the two spins of an entangled pair of electrons from a superconductor. For their study, the researchers used spin filters made of nanomagnets and quantum dots, as they report in the scientific journal Nature.

The entanglement between two particles is among those phenomena in quantum physics that are hard to reconcile with everyday experiences. If entangled, certain properties of the two particles are closely linked, even when far apart. Albert Einstein described entanglement as a "spooky action at a distance." Research on entanglement between light particles (photons) was awarded this year's Nobel Prize in Physics.

Two electrons can be entangled as well -- for example in their spins. In a superconductor, the electrons form so-called Cooper pairs responsible for the lossless electrical currents and in which the individual spins are entangled.

For several years, researchers at the Swiss Nanoscience Institute and the Department of Physics at the University of Basel have been able to extract electron pairs from a superconductor and spatially separate the two electrons. This is achieved by means of two quantum dots -- nanoelectronic structures connected in parallel, each of which only allows single electrons to pass.

Opposite electron spins from Cooper pairs

The team of Prof. Dr. Christian Schönenberger and Dr. Andreas Baumgartner, in collaboration with researchers led by Prof. Dr. Lucia Sorba from the Istituto Nanoscienze-CNR and the Scuola Normale Superiore in Pisa have now been able to experimentally demonstrate what has long been expected theoretically: electrons from a superconductor always emerge in pairs with opposite spins.

Using an innovative experimental setup, the physicists were able to measure that the spin of one electron points upwards when the other is pointing downwards, and vice versa. "We have thus experimentally proven a negative correlation between the spins of paired electrons," explains project leader Andreas Baumgartner.

The researchers achieved this by using a spin filter they developed in their laboratory. Using tiny magnets, they generated individually adjustable magnetic fields in each of the two quantum dots that separate the Cooper pair electrons. Since the spin also determines the magnetic moment of an electron, only one particular type of spin is allowed through at a time.

"We can adjust both quantum dots so that mainly electrons with a certain spin pass through them," explains first author Dr. Arunav Bordoloi. "For example, an electron with spin up passes through one quantum dot and an electron with spin down passes through the other quantum dot, or vice versa. If both quantum dots are set to pass only the same spins, the electric currents in both quantum dots are reduced, even though an individual electron may well pass through a single quantum dot."

"With this method, we were able to detect such negative correlations between electron spins from a superconductor for the first time," Andreas Baumgartner concludes. "Our experiments are a first step, but not yet a definitive proof of entangled electron spins, since we cannot set the orientation of the spin filters arbitrarily -- but we are working on it."

The research, which was recently published in Nature, is considered an important step toward further experimental investigations of quantum mechanical phenomena, such as the entanglement of particles in solids, which is also a key component of quantum computers.


Story Source:

Materials provided by University of Basel. Original written by Christel Möller. Note: Content may be edited for style and length.


Journal Reference:

  1. Arunav Bordoloi, Valentina Zannier, Lucia Sorba, Christian Schönenberger, Andreas Baumgartner. Spin cross-correlation experiments in an electron entangler. Nature, 2022; DOI: 10.1038/s41586-022-05436-z

Cite This Page:

University of Basel. "Spin correlation between paired electrons demonstrated." ScienceDaily. ScienceDaily, 23 November 2022. <www.sciencedaily.com/releases/2022/11/221123113221.htm>.
University of Basel. (2022, November 23). Spin correlation between paired electrons demonstrated. ScienceDaily. Retrieved December 3, 2024 from www.sciencedaily.com/releases/2022/11/221123113221.htm
University of Basel. "Spin correlation between paired electrons demonstrated." ScienceDaily. www.sciencedaily.com/releases/2022/11/221123113221.htm (accessed December 3, 2024).

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