Measuring nanomechanical motion with an imprecision far below the standard quantum limit

E. Gavartin; E. M. Weig; G. Anetsberger; J. P. Kotthaus; M. L. Gorodetsky; O. Arcizet; Q. P. Unterreithmeier; T. J. Kippenberg

arxiv: 1003.3752 · v1 · pith:ECFDNQJMnew · submitted 2010-03-19 · 🪐 quant-ph · cond-mat.mes-hall

Measuring nanomechanical motion with an imprecision far below the standard quantum limit

G. Anetsberger , E. Gavartin , O. Arcizet , Q. P. Unterreithmeier , E. M. Weig , M. L. Gorodetsky , J. P. Kotthaus , T. J. Kippenberg This is my paper

classification 🪐 quant-ph cond-mat.mes-hall

keywords quantumbackactionbelowimprecisionlimitmotionnanomechanicalstandard

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We demonstrate a transducer of nanomechanical motion based on cavity enhanced optical near-fields capable of achieving a shot-noise limited imprecision more than 10 dB below the standard quantum limit (SQL). Residual background due to fundamental thermodynamical frequency fluctuations allows a total imprecision 3 dB below the SQL at room temperature (corresponding to 600 am/Hz^(1/2) in absolute units) and is known to reduce to negligible values for moderate cryogenic temperatures. The transducer operates deeply in the quantum backaction dominated regime, prerequisite for exploring quantum backaction, measurement-induced squeezing and accessing sub-SQL sensitivity using backaction evading techniques.

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Measuring nanomechanical motion with an imprecision far below the standard quantum limit

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