4H-SiC PIN-type Semiconductor Detector for Fast Neutron Detection | Zendy

Jang Ho Ha | Zendy; Sang Mook Kang | Zendy; Han Soo Kim | Zendy; Se-Hwan Park | Zendy; Nam Ho Lee | Zendy; Taeyong Song | Zendy; JaeHyung Lee | Zendy; Hyeonseo Park | Zendy; Jungho Kim | Zendy

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4H-SiC PIN-type Semiconductor Detector for Fast Neutron Detection

Author(s) -

Jang Ho Ha,

Sang Mook Kang,

Han Soo Kim,

Se-Hwan Park,

Nam Ho Lee,

Taeyong Song,

JaeHyung Lee,

Hyeonseo Park,

Jungho Kim

Publication year - 2011

Publication title -

progress in nuclear science and technology

Language(s) - English

Resource type - Journals

ISSN - 2185-4823

DOI - 10.15669/pnst.1.237

Subject(s) - neutron detection , detector , semiconductor , semiconductor detector , materials science , optoelectronics , physics , optics

Radiation detectors based on semiconductors like Silicon Carbide (SiC), Aluminum Nitride (AlN), Boron Nitride (BN) and Gallium Arsenide (GaAs) with a large energy band gap are the most promising ionizing radiation detectors for high temperature and in harsh radiation fields. The present work focused on the development of a radiation resistive neutron semiconductor detector based on a wide band-gap 4H-SiC semiconductor, operating at a zero biased voltage by using a strong internal electric field. The self-biased detector structure was a PIN device, which was fabricated in KAERI based on the wafer provided by Cree Co.. The device was structured as 4 layers, which PIN-layer on NNeutron detection responses were measured up to a 1.1 x 10 n/sec-cm by using an Am-Be neutron source at a self-powered operation. The absolute neutron detection efficiency was determined as 5.1x10 at a 5.0 MeV in neutron energy.

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