Control of recoil losses in nanomechanical SiN membrane resonators

A. Borrielli; L. Marconi; F. Marin; F. Marino; B. Morana; G. Pandraud; A. Pontin; G.A. Prodi; P.M. Sarro; E. Serra; M. Bonaldi

doi:10.1103/PhysRevB.94.121403

Control of recoil losses in nanomechanical SiN membrane resonators

A. Borrielli, L. Marconi, F. Marin, F. Marino, B. Morana, G. Pandraud, A. Pontin, G.A. Prodi, P.M. Sarro, E. Serra, M. Bonaldi

Research output: Contribution to journal › Article › Scientific › peer-review

21 Citations (Scopus)

Abstract

In the context of a recoil damping analysis, we have designed and produced a membrane resonator equipped with a specific on-chip structure working as a "loss shield" for a circular membrane. In this device the vibrations of the membrane, with a quality factor of 107, reach the limit set by the intrinsic dissipation in silicon nitride, for all the modes and regardless of the modal shape, also at low frequency. Guided by our theoretical model of the loss shield, we describe the design rationale of the device, which can be used as effective replacement of commercial membrane resonators in advanced optomechanical setups, also at cryogenic temperatures.

Original language	English
Article number	121403
Pages (from-to)	121403-1/121403-5
Number of pages	5
Journal	Physical Review X
Volume	94
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevB.94.121403
Publication status	Published - 2016

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10.1103/PhysRevB.94.121403

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AU - Borrielli, A.

AU - Marconi, L.

AU - Marin, F.

AU - Marino, F.

AU - Morana, B.

AU - Pandraud, G.

AU - Pontin, A.

AU - Prodi, G.A.

AU - Sarro, P.M.

AU - Serra, E.

AU - Bonaldi, M.

PY - 2016

Y1 - 2016

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AB - In the context of a recoil damping analysis, we have designed and produced a membrane resonator equipped with a specific on-chip structure working as a "loss shield" for a circular membrane. In this device the vibrations of the membrane, with a quality factor of 107, reach the limit set by the intrinsic dissipation in silicon nitride, for all the modes and regardless of the modal shape, also at low frequency. Guided by our theoretical model of the loss shield, we describe the design rationale of the device, which can be used as effective replacement of commercial membrane resonators in advanced optomechanical setups, also at cryogenic temperatures.

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Control of recoil losses in nanomechanical SiN membrane resonators

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