Slobodan Rajic scite author profile

Slobodan Rajic

3Publications

211Citation Statements Received

58Citation Statements Given

How they've been cited

283

207

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Affiliations

Oak Ridge National Laboratory, University of Tennessee at Knoxville

Publications

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Photoinduced and thermal stress in silicon microcantilevers

Datskos

Rajic

Datskou

1998

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The photogeneration of free charge carriers in a semiconductor gives rise to mechanical strain. We measured the deflection of silicon microcantilevers resulting from photoinduced stress. The excess charge carriers responsible for the photoinduced stress, were produced via photon irradiation from a diode laser with wavelength λ=780 nm. For Si microcantilevers, the photoinduced stress is of opposite direction and about four times larger than the stress resulting from only thermal excitation. In this letter we report on our study of the photoinduced stress in silicon microcantilevers and discuss their temporal and photometric response.

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Performance of uncooled microcantilever thermal detectors

2004

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It has recently been shown that bimaterial microcantilevers can be used as uncooled infrared detectors. Bimaterial microcantilevers deform as their temperature changes due to the absorption of infrared photons. Infrared imaging using uncooled cantilever arrays has already been achieved by a number of groups. In this paper, we examined the performance of microcantilevers as uncooled infrared detectors with optical readout. As in the case of other kinds of uncooled thermal infrared detectors, temperature fluctuation noise and background fluctuation noise are fundamental limits to the performance of microcantilever thermal detectors. Since microcantilevers are mechanical devices, thermo-mechanical noise will also influence their performance. We fabricated a SiN x microcantilever thermal detector with an Al layer in the bimaterial region. For the microcantilever geometry and materials used, the background fluctuation noise equivalent temperature difference, NETD BF , calculated for f /1 optics and a 30 Hz frame rate was found to be 1.26 mK. The NETD TF , limited by temperature fluctuation noise, was calculated to be 7.4 mK while the thermo-mechanical NETD TM was calculated to be 5.3 mK. The sum of all fundamental noise sources, including the intrinsic noise of the ''optical lever'' readout, results in a total NETD of 9.2 mK. Absence of the readout noise would improve this parameter by only 2%.

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IR imaging using uncooled microcantilever detectors

et al. 2003

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Slobodan Rajic

Photoinduced and thermal stress in silicon microcantilevers

Performance of uncooled microcantilever thermal detectors

IR imaging using uncooled microcantilever detectors

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