Fabry-Perot Interferometric Calibration of 2D Nanomechanical Plate Resonators

Physics

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2102.04705v1
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physics.app-ph

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Fabry-Perot Interferometric Calibration of 2D Nanomechanical Plate Resonators. / Aguila, Myrron Albert Callera; Esmenda, Joshoua Condicion; Wang, Jyh-Yang et al.
In: arxiv.org, 09.02.2021.

Research output: Contribution to Journal/Magazine › Journal article

Harvard

Aguila, MAC, Esmenda, JC, Wang, J-Y, Lee, T-H, Yang, C-Y, Lin, K-H, Chang-Liao, K-S, Kafanov, S , Pashkin, YA & Chen, C-D 2021, 'Fabry-Perot Interferometric Calibration of 2D Nanomechanical Plate Resonators', arxiv.org.

APA

Aguila, M. A. C., Esmenda, J. C., Wang, J-Y., Lee, T-H., Yang, C-Y., Lin, K-H., Chang-Liao, K-S., Kafanov, S., Pashkin, Y. A., & Chen, C-D. (2021). Fabry-Perot Interferometric Calibration of 2D Nanomechanical Plate Resonators. arxiv.org.

Vancouver

Aguila MAC, Esmenda JC, Wang J-Y, Lee T-H, Yang C-Y, Lin K-H et al. Fabry-Perot Interferometric Calibration of 2D Nanomechanical Plate Resonators. arxiv.org. 2021 Feb 9.

Author

Aguila, Myrron Albert Callera ; Esmenda, Joshoua Condicion ; Wang, Jyh-Yang et al. / Fabry-Perot Interferometric Calibration of 2D Nanomechanical Plate Resonators. In: arxiv.org. 2021.

Bibtex

@article{8d599531daf84bfaa7ce8f4a3559883f,

title = "Fabry-Perot Interferometric Calibration of 2D Nanomechanical Plate Resonators",

abstract = " Displacement calibration of nanomechanical plate resonators presents a challenging task. Large nanomechanical resonator thickness reduces the amplitude of the resonator motion due to its increased spring constant and mass, and its unique reflectance. Here, we show that the plate thickness, resonator gap height, and motional amplitude of circular and elliptical drum resonators, can be determined in-situ by exploiting the fundamental interference phenomenon in Fabry-Perot cavities. The proposed calibration scheme uses optical contrasts to uncover thickness and spacer height profiles, and reuse the results to convert the photodetector signal to the displacement of drumheads that are electromotively driven in their linear regime. Calibrated frequency response and spatial mode maps enable extraction of the modal radius, effective mass, effective driving force, and Young's elastic modulus of the drumhead material. This scheme is applicable to any configuration of Fabry-Perot cavities, including plate and membrane resonators. ",

keywords = "physics.app-ph",

author = "Aguila, {Myrron Albert Callera} and Esmenda, {Joshoua Condicion} and Jyh-Yang Wang and Teik-Hui Lee and Chi-Yuan Yang and Kung-Hsuan Lin and Kuei-Shu Chang-Liao and Sergey Kafanov and Pashkin, {Yuri A.} and Chii-Dong Chen",

note = "15 pages, 4 figures",

year = "2021",

month = feb,

day = "9",

language = "English",

journal = "arxiv.org",

}

RIS

TY - JOUR

T1 - Fabry-Perot Interferometric Calibration of 2D Nanomechanical Plate Resonators

AU - Aguila, Myrron Albert Callera

AU - Esmenda, Joshoua Condicion

AU - Wang, Jyh-Yang

AU - Lee, Teik-Hui

AU - Yang, Chi-Yuan

AU - Lin, Kung-Hsuan

AU - Chang-Liao, Kuei-Shu

AU - Kafanov, Sergey

AU - Pashkin, Yuri A.

AU - Chen, Chii-Dong

N1 - 15 pages, 4 figures

PY - 2021/2/9

Y1 - 2021/2/9

N2 - Displacement calibration of nanomechanical plate resonators presents a challenging task. Large nanomechanical resonator thickness reduces the amplitude of the resonator motion due to its increased spring constant and mass, and its unique reflectance. Here, we show that the plate thickness, resonator gap height, and motional amplitude of circular and elliptical drum resonators, can be determined in-situ by exploiting the fundamental interference phenomenon in Fabry-Perot cavities. The proposed calibration scheme uses optical contrasts to uncover thickness and spacer height profiles, and reuse the results to convert the photodetector signal to the displacement of drumheads that are electromotively driven in their linear regime. Calibrated frequency response and spatial mode maps enable extraction of the modal radius, effective mass, effective driving force, and Young's elastic modulus of the drumhead material. This scheme is applicable to any configuration of Fabry-Perot cavities, including plate and membrane resonators.

AB - Displacement calibration of nanomechanical plate resonators presents a challenging task. Large nanomechanical resonator thickness reduces the amplitude of the resonator motion due to its increased spring constant and mass, and its unique reflectance. Here, we show that the plate thickness, resonator gap height, and motional amplitude of circular and elliptical drum resonators, can be determined in-situ by exploiting the fundamental interference phenomenon in Fabry-Perot cavities. The proposed calibration scheme uses optical contrasts to uncover thickness and spacer height profiles, and reuse the results to convert the photodetector signal to the displacement of drumheads that are electromotively driven in their linear regime. Calibrated frequency response and spatial mode maps enable extraction of the modal radius, effective mass, effective driving force, and Young's elastic modulus of the drumhead material. This scheme is applicable to any configuration of Fabry-Perot cavities, including plate and membrane resonators.

KW - physics.app-ph

M3 - Journal article

JO - arxiv.org

JF - arxiv.org

ER -

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