Selective excitation of zone-folded phonon modes within one triplet in a semiconductor superlattice | Zendy

Dirk Heinecke | Zendy; Oliver Kliebisch | Zendy; Johanna Flock | Zendy; A. Bruchhausen | Zendy; K. Köhler | Zendy; T. Dekorsy | Zendy

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Selective excitation of zone-folded phonon modes within one triplet in a semiconductor superlattice

Author(s) -

Dirk Heinecke,

Oliver Kliebisch,

Johanna Flock,

A. Bruchhausen,

K. Köhler,

T. Dekorsy

Publication year - 2013

Publication title -

physical review b

Language(s) - English

Resource type - Journals

eISSN - 1538-4489

pISSN - 1098-0121

DOI - 10.1103/physrevb.87.075307

Subject(s) - phonon , superlattice , picosecond , excitation , excited state , semiconductor , amplitude , condensed matter physics , physics , phase (matter) , pulse (music) , materials science , atomic physics , optics , optoelectronics , quantum mechanics , laser , detector

The selective optical excitation of coherent zone-folded acoustic phonon modes in a semiconductor superlattice is demonstrated. By using a time-delayed control pulse, we show the modification of phonon amplitudes within a phonon triplet and demonstrate that the phase relation of phonon modes can be mapped over time delays of several tens of picoseconds. This method with high spectral resolution has the potential to tailor specific amplitudes of phonon modes that are otherwise only collectively excited

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