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

A. Naik; E. Gavartin; E. M. Weig; G. Anetsberger; J. P. Kotthaus; M. L. Gorodetsky; O. Arcizet; Q. P. Unterreithmeier; T. J. Kippenberg; V. B. Braginsky; V. B. Braginsky; V. Braginsky

research

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

Authors: A. Naik
E. Gavartin
E. M. Weig
G. Anetsberger
J. P. Kotthaus
M. L. Gorodetsky
O. Arcizet
Q. P. Unterreithmeier
T. J. Kippenberg
V. B. Braginsky
V. B. Braginsky
V. Braginsky
Publication date: 1 January 2010
Publisher: 'American Physical Society (APS)'
Doi

Abstract

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