2009
DOI: 10.1364/oe.17.004367
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Optical sensitivity analysis of deformed mirrors for microcantilever array IR imaging

Abstract: Optical sensitivity is a major issue to improve the sensor responsivity and the spatial resolution of uncooled optomechanical focal plane arrays (FPA). The optical sensitivity is closely related to the mirror length and the undesired mirror deformation induced from the imbalanced residual stresses in different layers. In this paper, the influences of mirror length and deformation on the optical sensitivity are discussed by Fourier Optics. Theoretical analysis and experiments demonstrate that the optical sensit… Show more

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Cited by 18 publications
(15 citation statements)
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“…Optical readout uncooled infrared imaging Figure 1(a) shows the principle layout of an optical readout uncooled infrared imaging system. 14,17 The key component of the system is the substrate-free bi-material microcantilever FPA. The micro-cantilever array structure of a recently fabricated FPA with 50 lm unit size is shown in the inset of Figure 1 Table I.…”
Section: Theorymentioning
confidence: 99%
See 3 more Smart Citations
“…Optical readout uncooled infrared imaging Figure 1(a) shows the principle layout of an optical readout uncooled infrared imaging system. 14,17 The key component of the system is the substrate-free bi-material microcantilever FPA. The micro-cantilever array structure of a recently fabricated FPA with 50 lm unit size is shown in the inset of Figure 1 Table I.…”
Section: Theorymentioning
confidence: 99%
“…14 When the unit size is 60 lm, the calculated response is one order of magnitude lower than the experimental one. 14 The reason is that the supporting frame of the substrate-free FPA is much thinner, as compared with a traditional substrate FPA. As a result, the thermal capacity and the thermal conductivity of the FPA is greatly decreased, the frame becomes temperature-variable, which in turns enhances the value of H and S T and thus significantly improves the FPA temperature gray response.…”
Section: B Analytical Model Of Substrate-free Fpamentioning
confidence: 99%
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“…One approach to overcome these difficulties is to incorporate MEMS-based bi-material detectors, which were successfully demonstrated in infrared imaging 6,7 . The structure of one pixel of the FPA is presented in figure 1 The FPA composed of bi-material (SiNx/Au) micro-cantilever pixels absorbs the THz radiation, resulting in the temperature increase of each pixel.…”
Section: Introductionmentioning
confidence: 99%