Redshift in the Optical Absorption of ZnO Single Crystals in the Presence of an Intense Midinfrared Laser Field | Zendy

Shambhu Ghimire | Zendy; Anthony D. DiChiara | Zendy; Emily Sistrunk | Zendy; Urszula B. Szafruga | Zendy; Pierre Agostini | Zendy; Louis F. DiMauro | Zendy; David A. Reis | Zendy

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Redshift in the Optical Absorption of ZnO Single Crystals in the Presence of an Intense Midinfrared Laser Field

Author(s) -

Shambhu Ghimire,

Anthony D. DiChiara,

Emily Sistrunk,

Urszula B. Szafruga,

Pierre Agostini,

Louis F. DiMauro,

David A. Reis

Publication year - 2011

Publication title -

physical review letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 3.688

H-Index - 673

eISSN - 1079-7114

pISSN - 0031-9007

DOI - 10.1103/physrevlett.107.167407

Subject(s) - physics , redshift , brillouin zone , absorption edge , electron , condensed matter physics , intensity (physics) , lattice (music) , atomic physics , band gap , optics , astrophysics , quantum mechanics , galaxy , acoustics

We report time-resolved electroabsorption of a weak probe in a 500 μm thick zinc-oxide crystal in the presence of a strong midinfrared pump in the tunneling limit. We observe a substantial redshift in the absorption edge that scales with the cube root of intensity up to 1 TW/cm(2) (0.38 eV cm(2/3) TW(-1/3)) after which it increases more slowly to 0.4 eV at a maximum applied intensity of 5 TW/cm(2). The maximum shift corresponds to more than 10% of the band gap. The change in scaling occurs in a regime of nonperturbative high-order harmonic generation where electrons undergo periodic Bragg scattering from the Brillouin zone boundaries. It also coincides with the limit where the electric field becomes comparable to the ratio of the band gap to the lattice spacing.

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