Dissipation in a gold nanomechanical resonator at low temperatures

Physics

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https://doi.org/10.1007%2Fs10909-009-9951-6
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Keywords

Nanomechanical resonators , Dissipation , Magnetomotive

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Dissipation in a gold nanomechanical resonator at low temperatures. / Venkatesan, A.; Lulla, K. J.; Patton, M. J. et al.
In: Journal of Low Temperature Physics, Vol. 185, 685, 02.2010.

Research output: Contribution to Journal/Magazine › Journal article › peer-review

Harvard

Venkatesan, A, Lulla, KJ, Patton, MJ, Armour, AD, Mellor, CJ & Owers-Bradley, JR 2010, 'Dissipation in a gold nanomechanical resonator at low temperatures', Journal of Low Temperature Physics, vol. 185, 685. https://doi.org/10.1007%2Fs10909-009-9951-6

APA

Venkatesan, A., Lulla, K. J., Patton, M. J., Armour, A. D., Mellor, C. J., & Owers-Bradley, J. R. (2010). Dissipation in a gold nanomechanical resonator at low temperatures. Journal of Low Temperature Physics, 185, Article 685. https://doi.org/10.1007%2Fs10909-009-9951-6

Vancouver

Venkatesan A, Lulla KJ, Patton MJ, Armour AD, Mellor CJ, Owers-Bradley JR. Dissipation in a gold nanomechanical resonator at low temperatures. Journal of Low Temperature Physics. 2010 Feb;185:685. Epub 2009 Sept 25. doi: 10.1007%2Fs10909-009-9951-6

Author

Venkatesan, A. ; Lulla, K. J. ; Patton, M. J. et al. / Dissipation in a gold nanomechanical resonator at low temperatures. In: Journal of Low Temperature Physics. 2010 ; Vol. 185.

Bibtex

@article{ecdea3b2d5164a0696895399aaf6f510,

title = "Dissipation in a gold nanomechanical resonator at low temperatures",

abstract = "We present results from a study of the dissipation in nanomechanical gold resonators. We fabricated a nanomechanical resonator consisting of a gold wire of width 300 nm, thickness 80 nm and length 7.5 μm by etching away the underlying GaAs substrate. At low temperatures the resonator had a fundamental frequency of about 7.95 MHz, in part due to tension arising from differential thermal contraction between the gold beam and the underlying semiconductor substrate. The dissipation in the resonator was measured using the magnetomotive method over the temperature range 1 K to 10 mK. We find that the Q-factor of the resonator increases by more than a factor of four between 600 mK and 10 mK. The dissipation follows a weak power law dependence on temperature, ∝T0.5, from approximately 30 mK to 600 mK.",

keywords = "Nanomechanical resonators , Dissipation , Magnetomotive ",

author = "A. Venkatesan and Lulla, {K. J.} and Patton, {M. J.} and Armour, {A. D.} and Mellor, {C. J.} and Owers-Bradley, {J. R.}",

year = "2010",

month = feb,

doi = "10.1007%2Fs10909-009-9951-6",

language = "English",

volume = "185",

journal = "Journal of Low Temperature Physics",

issn = "0022-2291",

publisher = "SPRINGER/PLENUM PUBLISHERS",

}

RIS

TY - JOUR

T1 - Dissipation in a gold nanomechanical resonator at low temperatures

AU - Venkatesan, A.

AU - Lulla, K. J.

AU - Patton, M. J.

AU - Armour, A. D.

AU - Mellor, C. J.

AU - Owers-Bradley, J. R.

PY - 2010/2

Y1 - 2010/2

N2 - We present results from a study of the dissipation in nanomechanical gold resonators. We fabricated a nanomechanical resonator consisting of a gold wire of width 300 nm, thickness 80 nm and length 7.5 μm by etching away the underlying GaAs substrate. At low temperatures the resonator had a fundamental frequency of about 7.95 MHz, in part due to tension arising from differential thermal contraction between the gold beam and the underlying semiconductor substrate. The dissipation in the resonator was measured using the magnetomotive method over the temperature range 1 K to 10 mK. We find that the Q-factor of the resonator increases by more than a factor of four between 600 mK and 10 mK. The dissipation follows a weak power law dependence on temperature, ∝T0.5, from approximately 30 mK to 600 mK.

AB - We present results from a study of the dissipation in nanomechanical gold resonators. We fabricated a nanomechanical resonator consisting of a gold wire of width 300 nm, thickness 80 nm and length 7.5 μm by etching away the underlying GaAs substrate. At low temperatures the resonator had a fundamental frequency of about 7.95 MHz, in part due to tension arising from differential thermal contraction between the gold beam and the underlying semiconductor substrate. The dissipation in the resonator was measured using the magnetomotive method over the temperature range 1 K to 10 mK. We find that the Q-factor of the resonator increases by more than a factor of four between 600 mK and 10 mK. The dissipation follows a weak power law dependence on temperature, ∝T0.5, from approximately 30 mK to 600 mK.

KW - Nanomechanical resonators

KW - Dissipation

KW - Magnetomotive

U2 - 10.1007%2Fs10909-009-9951-6

DO - 10.1007%2Fs10909-009-9951-6

M3 - Journal article

VL - 185

JO - Journal of Low Temperature Physics

JF - Journal of Low Temperature Physics

SN - 0022-2291

M1 - 685

ER -

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