M. Bignotto scite author profile

We apply a feedback cooling technique to simultaneously cool the three electromechanical normal modes of the ton-scale resonant-bar gravitational wave detector AURIGA. The measuring system is based on a dc superconducting quantum interference device (SQUID) amplifier, and the feedback cooling is applied electronically to the input circuit of the SQUID. Starting from a bath temperature of 4.2 K, we achieve a minimum temperature of 0.17 mK for the coolest normal mode. The same technique, implemented in a dedicated experiment at subkelvin bath temperature and with a quantum limited SQUID, could allow to approach the quantum ground state of a kilogram-scale mechanical resonator.

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3-Mode Detection for Widening the Bandwidth of Resonant Gravitational Wave Detectors

Baggio

Bignotto

Bonaldi

et al. 2005

Phys. Rev. Lett.

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Nonequilibrium Steady-State Fluctuations in Actively Cooled Resonators

et al. 2009

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We analyze heat and work fluctuations in the gravitational wave detector AURIGA, modeled as a macroscopic electromechanical oscillator in contact with a thermostat and cooled by an active feedback system. The oscillator is driven to a steady state by the feedback cooling, equivalent to a viscous force. The experimentally measured fluctuations are in agreement with our theoretical analysis based on a stochastically driven Langevin system. The asymmetry of the fluctuations of the absorbed heat characterizes the oscillator's nonequilibrium steady state and reveals the extent to which a feedback cooled system departs from equilibrium in a statistical mechanics perspective.

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M. Bignotto

Feedback Cooling of the Normal Modes of a Massive Electromechanical System to Submillikelvin Temperature

3-Mode Detection for Widening the Bandwidth of Resonant Gravitational Wave Detectors

Nonequilibrium Steady-State Fluctuations in Actively Cooled Resonators

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