Observation of Pauli blocking in light scattering from quantum degenerate fermions

Observation of Pauli blocking in light scattering from quantum degenerate fermions

The Pauli exclusion principle forbids indistinguishable fermions from occupying the same quantum mechanical state. The implications of this are profound; for example, it accounts for the electronic shell structure of atoms. Here, we performed measurements on the scattering of light from ultracold en...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2021-11, Vol.374 (6570), p.972-975
Hauptverfasser: Deb, Amita B, Kjærgaard, Niels
Format: Artikel
Sprache:eng
Schlagworte:
Atomic structure
Atoms & subatomic particles
Cold gas
Fermi gases
Fermi-Dirac statistics
Fermions
Fluorescence
Gases
Light scattering
Light transmission
Pauli exclusion principle
Photons
Quantum mechanics
Shells (structural forms)
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Zusammenfassung:The Pauli exclusion principle forbids indistinguishable fermions from occupying the same quantum mechanical state. The implications of this are profound; for example, it accounts for the electronic shell structure of atoms. Here, we performed measurements on the scattering of light from ultracold ensembles of atoms. For a Fermi gas in the quantum degenerate regime, we observed a marked suppression in scattering compared with a similarly prepared Bose gas. The observed decrease in fluorescence and the corresponding increase in light transmission results from Pauli blocking, where Fermi-Dirac statistics limits the number of accessible states for a scattering atom in a large Fermi sea. Our work confirms a fundamental result on the optical response of quantum gases and may contribute to cooling and thermometry schemes.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.abh3470