Abstract
In this paper, we discuss using the Casimir force in conjunction with a MEMS parametric amplifier to construct a quantum displacement amplifier. Such a mechanical amplifier converts DC displacements into much larger AC oscillations via the quantum gain of the system which, in some cases, can be a factor of a million or more. This would allow one to build chip scale metrology systems with zeptometer positional resolution. This approach leverages quantum fluctuations to build a device with a sensitivity that can’t be obtained with classical systems.
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Javor, J., Imboden, M., Stange, A., Yao, Z., Campbell, D. K., & Bishop, D. J. (2022). Zeptometer Metrology Using the Casimir Effect. Journal of Low Temperature Physics, 208(1–2), 147–159. https://doi.org/10.1007/s10909-021-02650-3
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