Multiple scattering dynamics of fermions at an isolated p-wave resonance

The wavefunction for indistinguishable fermions is anti-symmetric under particle exchange, which directly leads to the Pauli exclusion principle, and hence underlies the structure of atoms and the properties of almost all materials. In the dynamics of collisions between two indistinguishable fermion...

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Veröffentlicht in:	arXiv.org 2016-07
Hauptverfasser:	Ryan, Thomas, Roberts, Kris O, Tiesinga, Eite, Wade, Andrew C J, P Blair Blakie, Deb, Amita B, Kjærgaard, Niels
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Sprache:	eng
Schlagworte:	Atomic structure Collisions Elastic scattering Fermions Pauli exclusion principle Physics - Atomic Physics Physics - Quantum Gases Physics - Quantum Physics Resonance scattering Wave scattering
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description	The wavefunction for indistinguishable fermions is anti-symmetric under particle exchange, which directly leads to the Pauli exclusion principle, and hence underlies the structure of atoms and the properties of almost all materials. In the dynamics of collisions between two indistinguishable fermions this requirement strictly prohibits scattering into 90 degree angles. Here we experimentally investigate the collisions of ultracold clouds fermionic $\rm^{40}K$ atoms by directly measuring scattering distributions. With increasing collision energy we identify the Wigner threshold for p-wave scattering with its tell-tale dumb-bell shape and no $90^\circ$ yield. Above this threshold effects of multiple scattering become manifest as deviations from the underlying binary p-wave shape, adding particles either isotropically or axially. A shape resonance for $\rm^{40}K$ facilitates the separate observation of these two processes. The isotropically enhanced multiple scattering mode is a generic p-wave threshold phenomenon, while the axially enhanced mode should occur in any colliding particle system with an elastic scattering resonance.
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subjects	Atomic structure Collisions Elastic scattering Fermions Pauli exclusion principle Physics - Atomic Physics Physics - Quantum Gases Physics - Quantum Physics Resonance scattering Wave scattering
title	Multiple scattering dynamics of fermions at an isolated p-wave resonance
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