Photonics (Feb 2015)

Squeezed Phonon Wave Packet Generation by Optical Manipulation of a Quantum Dot

  • Daniel Wigger,
  • Sebastian Lüker,
  • Vollrath M. Axt,
  • Doris E. Reiter,
  • Tilmann Kuhn

DOI
https://doi.org/10.3390/photonics2010214
Journal volume & issue
Vol. 2, no. 1
pp. 214 – 227

Abstract

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In solid-state physics, the quantized lattice vibrations, i.e., the phonons, play a vital role. Phonons, much like photons, satisfy bosonic commutation relations, and therefore, various concepts well-known in quantum optics can be transferred to the emerging field of phononics. Examples are non-classical states and, in particular, squeezed states. We discuss the generation of phonon squeezing by optically exciting a quantum dot and show that by excitation with detuned continuous wave laser fields, sequences of squeezed phonon wave packets are created, which are emitted from the quantum dot region into the surrounding material.

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