Kunakorn Poochinda scite author profile

We report a new dosimetry concept that is built on an earlier integrated sensor concept by our group at University of Washington to integrate a radiation-dosimetry-quality Al2O3:C and a high quantum-efficiency GaN-based p-i-n photodiode on one side, and light emitting diodes (LEDs) on the opposite side as the stimulation source. The performance of the sensor has been evaluated by computer simulation, the performance of GaN photodiodes and studying the GaN films. The absorption spectrum of the GaN film was measured and indicated that the GaN photodiodes would not respond to the output wavelengths of the stimulating LEDs. The electrical properties and the performance of GaN p-i-n photodiode under irradiation were simulated. The results showed that the sensor offered comparable radiation sensitivity to current technologies and could be operated in active mode.

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Structural, optical and electrical properties of GaN and InGaN films grown by MOCVD

Poochinda

Chen

Stoebe

et al. 2004

Journal of Crystal Growth

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Kunakorn Poochinda

In situ monitoring and control of multicomponent gas-phase streams for growth of GaN via MOCVD

Simulation of GaN and InGaN p–i–n and n–i–n photo-devices

A systematic study on group III-nitride thin films with low temperature deposited via MOCVD

Innovational radiation sensor by integrating AL2O3:C optically stimulated luminescent dosemeter and GaN detectors

Structural, optical and electrical properties of GaN and InGaN films grown by MOCVD

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