S. Nadar scite author profile

S. Nadar

4Publications

119Citation Statements Received

36Citation Statements Given

How they've been cited

198

117

How they cite others

Affiliations

Institute of Electronics, Microelectronics and Nanotechnology, University of Montpellier, University of Lille

Publications

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Current driven resonant plasma wave detection of terahertz radiation: Toward the Dyakonov–Shur instability

Boubanga-Tombet

Теппе

Coquillat

et al. 2008

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The experiments on the dc current influence on resonant terahertz plasma wave detection in InGaAs∕InAlAs multichannel high electron mobility transistors are reported. We observed the line width shrinking when a dc current is applied. We show that this line width decrease is due to the current induced reduction of plasma wave damping and takes place because the current drives the system toward the Dyakonov-Shur plasma wave instability.

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Room temperature detection of sub-terahertz radiation in double-grating-gate transistors

Coquillat¹,

Nadar²,

Теппе³

et al. 2010

Opt. Express

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Room temperature photovoltaic non-resonant detection by large area double-grating-gate InGaP/InGaAs/GaAs heterostructures was investigated in sub-THz range (0.24 THz). Semi-quantitative estimation of the characteristic detection length combined with self-consistent calculations of the electric fields excited in the structure by incoming terahertz radiation allowed us to interpret quantitatively the results and conclude that this detection takes place mainly in the regions of strong oscillating electric field excited in depleted portions of the channel.

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Room temperature imaging at 1.63 and 2.54 THz with field effect transistor detectors

Nadar

Videlier

Coquillat

et al. 2010

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GaAs nanometric field effect-transistors are used for room temperature single-pixel imaging using radiation frequencies above 1 THz. Images obtained in transmission mode at 1.63 THz are recorded using transistors operating in a photovoltaic mode with spatial resolution of 300 μm and voltage sensitivity of about 8 mV/W. A reduction in response with increasing frequency was observed and mitigated by the application of a source-drain current, leading to the demonstration of imaging at up to 2.54 THz.

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Oblique modes effect on terahertz plasma wave resonant detection in InGaAs∕InAlAs multichannel transistors

Shchepetov¹,

Gardès²,

Roelens³

et al. 2008

Appl. Phys. Lett.

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S. Nadar

Current driven resonant plasma wave detection of terahertz radiation: Toward the Dyakonov–Shur instability

Room temperature detection of sub-terahertz radiation in double-grating-gate transistors

Room temperature imaging at 1.63 and 2.54 THz with field effect transistor detectors

Oblique modes effect on terahertz plasma wave resonant detection in InGaAs∕InAlAs multichannel transistors

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