Gradient catastrophe and Fermi-edge resonances in Fermi gas

Any smooth spatial disturbance of a degenerate Fermi gas inevitably becomes sharp. This phenomenon, called the gradient catastrophe, causes the breakdown of a Fermi sea to multiconnected components characterized by multiple Fermi points. We argue that the gradient catastrophe can be probed through a...

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Veröffentlicht in:	Physical review letters 2011-04, Vol.106 (16), p.166804-166804, Article 166804
Hauptverfasser:	Bettelheim, E, Kaplan, Y, Wiegmann, P
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Sprache:	eng
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creator	Bettelheim, E Kaplan, Y Wiegmann, P
description	Any smooth spatial disturbance of a degenerate Fermi gas inevitably becomes sharp. This phenomenon, called the gradient catastrophe, causes the breakdown of a Fermi sea to multiconnected components characterized by multiple Fermi points. We argue that the gradient catastrophe can be probed through a Fermi-edge singularity measurement. In the regime of the gradient catastrophe the Fermi-edge singularity problem becomes a nonequilibrium and nonstationary phenomenon. We show that the gradient catastrophe transforms the single-peaked Fermi-edge singularity of the tunneling (or absorption) spectrum to a sequence of multiple asymmetric singular resonances. An extension of the bosonic representation of the electronic operator to nonequilibrium states captures the singular behavior of the resonances.
doi_str_mv	10.1103/PhysRevLett.106.166804
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title	Gradient catastrophe and Fermi-edge resonances in Fermi gas
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