A MEMS-based terahertz detector with metamaterial-based absorber and optical interferometric readout
A MEMS-based terahertz detector with metamaterial-based absorber and optical interferometric readout
A MEMS based novel THz detector structure is designed and realized by micro fabrication. The detector is then characterized to extract its mechanical performance. Operating in 0.5–2 THz band, the detector has a pixel size of 200 μm × 200 μm. Bimaterial suspension legs consist of Parylene-C and titanium, the pair of which provides a high mismatch in coefficients of thermal expansion. The pixel is a suspended Parylene-C structure having a 200 nm-thick titanium metallization. Operation principle relies on conversion of absorbed THz radiation into heat energy on the pixel. This increases the temperature of the free-standing microstructure that is thermally isolated from the substrate. The increase in temperature induces mechanical deflection due to bimaterial springs. The detector is designed to deliver a detectivity (D*) of 2 × 109 cm Hz−1/2/W and a refresh rate of 20 Hz.
MEMS, Metamaterials, Microfabrication, Optical readout, Terahertz technology
292-298
Bilgin, Habib
b8c5f2be-0c18-4045-9334-649143034309
Zahertar, Shahrzad
9e9db9c7-0e1e-4d50-99b8-af23e09ab6ae
Sadeghzadeh, Seyedehayda
de45ac56-5ff7-470c-b7f9-3d74c14cedec
Yalcinkaya, Arda D.
5a203bde-8b83-420e-b9ec-3356749e582a
Torun, Hamdi
6635ce04-57c2-4847-9cce-67ce2425d32b
15 June 2016
Bilgin, Habib
b8c5f2be-0c18-4045-9334-649143034309
Zahertar, Shahrzad
9e9db9c7-0e1e-4d50-99b8-af23e09ab6ae
Sadeghzadeh, Seyedehayda
de45ac56-5ff7-470c-b7f9-3d74c14cedec
Yalcinkaya, Arda D.
5a203bde-8b83-420e-b9ec-3356749e582a
Torun, Hamdi
6635ce04-57c2-4847-9cce-67ce2425d32b
Bilgin, Habib, Zahertar, Shahrzad, Sadeghzadeh, Seyedehayda, Yalcinkaya, Arda D. and Torun, Hamdi
(2016)
A MEMS-based terahertz detector with metamaterial-based absorber and optical interferometric readout.
Sensors and Actuators A: Physical, 244, .
(doi:10.1016/j.sna.2016.04.021).
Abstract
A MEMS based novel THz detector structure is designed and realized by micro fabrication. The detector is then characterized to extract its mechanical performance. Operating in 0.5–2 THz band, the detector has a pixel size of 200 μm × 200 μm. Bimaterial suspension legs consist of Parylene-C and titanium, the pair of which provides a high mismatch in coefficients of thermal expansion. The pixel is a suspended Parylene-C structure having a 200 nm-thick titanium metallization. Operation principle relies on conversion of absorbed THz radiation into heat energy on the pixel. This increases the temperature of the free-standing microstructure that is thermally isolated from the substrate. The increase in temperature induces mechanical deflection due to bimaterial springs. The detector is designed to deliver a detectivity (D*) of 2 × 109 cm Hz−1/2/W and a refresh rate of 20 Hz.
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Published date: 15 June 2016
Keywords:
MEMS, Metamaterials, Microfabrication, Optical readout, Terahertz technology
Identifiers
Local EPrints ID: 455650
URI: http://eprints.soton.ac.uk/id/eprint/455650
ISSN: 0924-4247
PURE UUID: 54f1864e-6fea-430c-a0c4-12e25d26eb3e
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Date deposited: 30 Mar 2022 16:32
Last modified: 17 Mar 2024 04:08
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Contributors
Author:
Habib Bilgin
Author:
Shahrzad Zahertar
Author:
Seyedehayda Sadeghzadeh
Author:
Arda D. Yalcinkaya
Author:
Hamdi Torun
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