Thomas Nohava scite author profile

Thomas Nohava

5Publications

92Citation Statements Received

22Citation Statements Given

How they've been cited

199

How they cite others

Affiliations

Honeywell (United States), Signal Processing (United States), University of Minnesota Children's Hospital

Publications

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High gain GaN/AlGaN heterojunction phototransistor

Yang

Nohava

Krishnankutty

et al. 1998

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A GaN/AlGaN heterojunction bipolar phototransistor with gain in excess of 105 was demonstrated. From 360 to 400 nm, an eight orders of magnitude drop in responsivity was achieved. The phototransistor features a rapid electrical quenching of persistent photoconductivity, and exhibits high dark impedance and no dc drift. By changing the frequency of the quenching cycles, the detection speed of the phototransistor can be adjusted to accommodate specific applications. These results represent an internal gain UV detector with significantly improved performance over GaN-based photoconductors.

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Visible-Blind UV Digital Camera Based On a 32 × 32 Array of GaN/AlGaN p-i-n Photodiodes

Brown

Matthews

et al. 1999

MRS Internet j. nitride semicond. res.

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A visible-blind UV camera based on a 32 x 32 array of backside-illuminated GaN/AlGaN p-i-n photodiodes has been successfully demonstrated. Each of the 1024 photodiodes in the array consists of a base n-type layer of AlGaN (~20%) onto which an undoped GaN layer followed by a p-type GaN layer is deposited by metallorganic vapor phase epitaxy. Double-side polished sapphire wafers are used as transparent substrates. Standard photolithographic, etching, and metallization procedures were employed to obtain fully-processed devices. The photodiode array was hybridized to a silicon readout integrated circuit using In bump bonds. Output from the UV camera was recorded at room temperature at a frame rate of 30 Hz. This new type of visible-blind digital camera is sensitive to radiation from 320 nm to 365 nm in the UV spectral region.

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High-Sensitivity Visible-Blind AlGaN Photodiodes and Photodiode Arrays

Brown

Matthews

Harney

et al. 2000

MRS Internet j. nitride semicond. res.

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Visible-blind UV cameras based on a 32 × 32 array of backside-illuminated GaN/AlGaN p-i-n photodiodes have been successfully demonstrated. The photodiode arrays were hybridized to silicon readout integrated circuits (ROICs) using In bump bonds. Output from the UV cameras were recorded at room temperature at frame rates of 30−240 Hz. These new visible-blind digital cameras are sensitive to radiation from 285−365 nm in the UV spectral region.

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Metamorphic InyGa1−yAs/InzAl1−zAs heterostructure field effect transistors grown on GaAs(001) substrates using molecular-beam epitaxy

Grider

Swirhun

Narum

et al. 1990

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Quantum-well p-channel AlGaAs/InGaAs/GaAs heterostructure insulated-gate field-effect transistors

Ruden

Shur

Arch

et al. 1989

IEEE Trans. Electron Devices

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Thomas Nohava

High gain GaN/AlGaN heterojunction phototransistor

Visible-Blind UV Digital Camera Based On a 32 × 32 Array of GaN/AlGaN p-i-n Photodiodes

High-Sensitivity Visible-Blind AlGaN Photodiodes and Photodiode Arrays

Metamorphic InyGa1−yAs/InzAl1−zAs heterostructure field effect transistors grown on GaAs(001) substrates using molecular-beam epitaxy

Quantum-well p-channel AlGaAs/InGaAs/GaAs heterostructure insulated-gate field-effect transistors

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