Detecting squeezing from the fluctuation spectrum of a driven nanomechanical mode
Detecting squeezing from the fluctuation spectrum of a driven nanomechanical mode
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Squeezing of quantum and classical fluctuations of one of the quadratures of a vibrational mode enables using this quadrature for high precision measurements. Conventionally squeezing is detected by mixing the mode vibrations with a known signal in homodyne detection. In this paper we demonstrate a different approach to revealing and characterizing squeezing. Using a resonantly driven nonlinear nanomechanical resonator with a high quality factor, we show that classical fluctuations about the stable states of forced vibrations are squeezed and that the squeezing can be measured directly by studying the power spectrum of these fluctuations. The measurement does not require any additional signal. Our experimental and theoretical results are in excellent agreement. They directly extend to the quantum domain and demonstrate an unconventional aspect of squeezing.
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OCHS, Jana Simone, Gianluca RASTELLI, Maximilian SEITNER, Johannes KÖLBL, Wolfgang BELZIG, Mark I. DYKMAN, Eva M. WEIG, 2019. Detecting squeezing from the fluctuation spectrum of a driven nanomechanical modeBibTex
@unpublished{Ochs2019-03-18T17:48:41ZDetec-45536.2, year={2019}, title={Detecting squeezing from the fluctuation spectrum of a driven nanomechanical mode}, author={Ochs, Jana Simone and Rastelli, Gianluca and Seitner, Maximilian and Kölbl, Johannes and Belzig, Wolfgang and Dykman, Mark I. and Weig, Eva M.} }
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