Optical readout method based on time-discrete modulation for micro-cantilever array sensing

Xuhong Chu; Liquan Dong; Yuejin Zhao; Xiaomei Yu; Yun Feng

doi:10.3788/COL201614.101102

Optical readout method based on time-discrete modulation for micro-cantilever array sensing

Xuhong Chu, Liquan Dong^*, Yuejin Zhao, Xiaomei Yu, Yun Feng

^*Corresponding author for this work

School of Optics and Photonics

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

Abstract

Noise and the resonance characteristics of the focal plane array (FPA) are the most important factors that affect the performance of the optical readout infrared (IR) FPA imaging system. This Letter presents a time-discrete modulation technology that eliminates the background and restrain noise, which effectively improves the image quality of the optical readout IR FPA imaging system. The comparative experiments show that this technology can reduce the noise equivalent temperature difference greatly and make the images sharper. Moreover, when the imaging system is influenced by the environment vibration, the images obtained from the imaging system with time-discrete modulation restore twice as fast as without time-discrete modulation.

Original language	English
Article number	101102
Journal	Chinese Optics Letters
Volume	14
Issue number	10
DOIs	https://doi.org/10.3788/COL201614.101102
Publication status	Published - 10 Oct 2016

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title = "Optical readout method based on time-discrete modulation for micro-cantilever array sensing",

abstract = "Noise and the resonance characteristics of the focal plane array (FPA) are the most important factors that affect the performance of the optical readout infrared (IR) FPA imaging system. This Letter presents a time-discrete modulation technology that eliminates the background and restrain noise, which effectively improves the image quality of the optical readout IR FPA imaging system. The comparative experiments show that this technology can reduce the noise equivalent temperature difference greatly and make the images sharper. Moreover, when the imaging system is influenced by the environment vibration, the images obtained from the imaging system with time-discrete modulation restore twice as fast as without time-discrete modulation.",

author = "Xuhong Chu and Liquan Dong and Yuejin Zhao and Xiaomei Yu and Yun Feng",

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AU - Chu, Xuhong

AU - Dong, Liquan

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AU - Yu, Xiaomei

AU - Feng, Yun

PY - 2016/10/10

Y1 - 2016/10/10

N2 - Noise and the resonance characteristics of the focal plane array (FPA) are the most important factors that affect the performance of the optical readout infrared (IR) FPA imaging system. This Letter presents a time-discrete modulation technology that eliminates the background and restrain noise, which effectively improves the image quality of the optical readout IR FPA imaging system. The comparative experiments show that this technology can reduce the noise equivalent temperature difference greatly and make the images sharper. Moreover, when the imaging system is influenced by the environment vibration, the images obtained from the imaging system with time-discrete modulation restore twice as fast as without time-discrete modulation.

AB - Noise and the resonance characteristics of the focal plane array (FPA) are the most important factors that affect the performance of the optical readout infrared (IR) FPA imaging system. This Letter presents a time-discrete modulation technology that eliminates the background and restrain noise, which effectively improves the image quality of the optical readout IR FPA imaging system. The comparative experiments show that this technology can reduce the noise equivalent temperature difference greatly and make the images sharper. Moreover, when the imaging system is influenced by the environment vibration, the images obtained from the imaging system with time-discrete modulation restore twice as fast as without time-discrete modulation.

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VL - 14

JO - Chinese Optics Letters

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Optical readout method based on time-discrete modulation for micro-cantilever array sensing

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