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Semiconductor Optoelectronics, Volume. 43, Issue 6, 1062(2022)

Applicability of L-R Theory for Thermoelastic Damping of Mass Suspension Beam Structure

LI Min1...2, LIU Junkang1, ZHANG Jiahong1,2 and LI Mubai3 |Show fewer author(s)
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    [1] [1] Roszhart T V. The effect of thermoelastic internal friction on the Q of micromachined silicon resonators[C]// IEEE 4th Technical Digest on Solid-State Sensor and Actuator Workshop, Hilton Head, SC, USA, 1990: 13-16.

    [2] [2] Sorenson L, Shao P, Ayazi F. Bulk and surface thermoelastic dissipation in micro hemispherical shell resonators[J]. J. of Microelectromechanical Systems, 2015, 24(2): 486-502.

    [3] [3] Yasumura K Y, Stowe T D, Chow E M, et al. Quality factor in micron and submicron thick cantilevers[J]. J. of Microelectromechanical Systems, 2000, 9(1): 117-125.

    [4] [4] Sharma N G, Sundararajan T, Gautam S S. Effect of geometric imperfections on anchor loss and characterization of a gyroscope resonator with high quality factor[J]. Gyroscopy and Navigation, 2020, 11(3): 206-213.

    [5] [5] Nguyen C C, Howe R T. Quality factor control for micromechanical resonators[C]// Tech. Dig. IEEE Int. Electron Devices Meeting, 1992: 505-508.

    [6] [6] Joshi S, Hung S, Vengallatore S. Design strategies for controlling damping in micromechanical and nanomechanical resonators[J]. EPJ Techniques and Instrumentation, 2014, 5(1): 1-14.

    [7] [7] Zener C. Internal friction in solids. Ⅰ. Theory of internal friction in reeds[J]. Phys. Rev., 1937, 52: 230-235.

    [8] [8] Lifshitz R, Roukes M L. Thermoelastic damping in micro- and nanomechanical systems[J]. The American Physical Society, 2000, 61(8): 5601-5609.

    [9] [9] Guo X, Yi Y B, Pourkamali S. A finite element analysis of thermoelastic damping in vented MEMS beam resonators[J]. Inter. J. of Mechanical Sciences, 2013, 74: 73-82.

    [10] [10] Hao Z, Xu Y, Shiva K D. A thermal-energy method for calculating thermoelastic damping in micromechanical resonators[J]. J. of Sound and Vibration, 2009, 322: 870-882.

    [12] [12] Zuo W, Li P, Zhang J R, et al. Analytical modeling of thermoelastic damping in bilayered microplate resonators[J]. Inter. J. of Mechanical Sciences, 2016, 106: 128-137.

    [16] [16] Li P, Hu R F. Thermoelastic damping in micromechanical resonators with a proof mass and a network of suspension beams[J]. Jap. J. of Appl. Phys., 2011, 50(7): 77202.1-77202.10.

    [17] [17] Timoshenko S. Theory of Plates and Shells[M]. McGraw-Hill Book Company, 1940.

    [18] [18] Liu C. Foundations of MEMS[M]. Prentice Hall, 2011.

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    LI Min, LIU Junkang, ZHANG Jiahong, LI Mubai. Applicability of L-R Theory for Thermoelastic Damping of Mass Suspension Beam Structure[J]. Semiconductor Optoelectronics, 2022, 43(6): 1062

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    Paper Information

    Special Issue:

    Received: Nov. 20, 2022

    Accepted: --

    Published Online: Jan. 27, 2023

    The Author Email:

    DOI:10.16818/j.issn1001-5868.2022112001

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology