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Coherent multidimensional photoelectron spectroscopy of ultrafast quasiparticle dressing by light

Marcel Reutzel (), Andi Li, Zehua Wang and Hrvoje Petek ()
Additional contact information
Marcel Reutzel: University of Pittsburgh
Andi Li: University of Pittsburgh
Zehua Wang: University of Pittsburgh
Hrvoje Petek: University of Pittsburgh

Nature Communications, 2020, vol. 11, issue 1, 1-5

Abstract: Abstract Depending on the applied strength, electromagnetic fields in electronic materials can induce dipole transitions between eigenstates or distort the Coulomb potentials that define them. Between the two regimes, they can also modify the electronic properties in more subtle ways when electron motion becomes governed by time and space-periodic potentials. The optical field introduces new virtual bands through Floquet engineering that under resonant conditions interacts strongly with the preexisting bands. Under such conditions the virtual bands can become real, and real ones become virtual as the optical fields and electronic band dispersions entangle the electronic response. We reveal optical dressing of electronic bands in a metal by exciting four-photon photoemission from the Cu(111) surface involving a three-photon resonant transition from the Shockley surface band to the first image potential band. Attosecond resolved interferometric scanning between identical pump–probe pulses and its Fourier analysis reveal how the optical field modifies the electronic properties of a solid through combined action of dipole excitation and field dressing.

Date: 2020
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Citations: View citations in EconPapers (1)

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DOI: 10.1038/s41467-020-16064-4

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