Abstract
The objectives of our experiment are as followed; 1. to develop the simply and rapidly measurable system for various parameters of emanated radiation by using the diode with low cost and easy availability, 2. to establish the basic technique for computerization of measurement system. The results are as followed; Detector, using 1N4007 silicon diode, was selected as the most superior probe, because the leakage current was 0.5pA, signal current 1.82nA, and the ratio of noise/signal was 0.03%. The measured results showed that linearity and stability of 1N4007 silicon diode detector were within 1.6%, sensitivity by radiation damage was decreased maximum 1% per 100Gy. Also, beam flatness and symmetry were within 2%. (Author).
Ji, Young Hoon;
Lee, Dong Han;
Koh, Kyung Hwan;
Cho, Chul Koo;
Yoon, Hyong Keun;
Lee, Seong Koo;
Choi, Moon Sik
[1]
- Korea Atomic Energy Res. Inst., Taejon (Korea, Republic of)
Citation Formats
Ji, Young Hoon, Lee, Dong Han, Koh, Kyung Hwan, Cho, Chul Koo, Yoon, Hyong Keun, Lee, Seong Koo, and Choi, Moon Sik.
Development of high energy radiation measurement system with diode.
Korea, Republic of: N. p.,
1993.
Web.
Ji, Young Hoon, Lee, Dong Han, Koh, Kyung Hwan, Cho, Chul Koo, Yoon, Hyong Keun, Lee, Seong Koo, & Choi, Moon Sik.
Development of high energy radiation measurement system with diode.
Korea, Republic of.
Ji, Young Hoon, Lee, Dong Han, Koh, Kyung Hwan, Cho, Chul Koo, Yoon, Hyong Keun, Lee, Seong Koo, and Choi, Moon Sik.
1993.
"Development of high energy radiation measurement system with diode."
Korea, Republic of.
@misc{etde_10112188,
title = {Development of high energy radiation measurement system with diode}
author = {Ji, Young Hoon, Lee, Dong Han, Koh, Kyung Hwan, Cho, Chul Koo, Yoon, Hyong Keun, Lee, Seong Koo, and Choi, Moon Sik}
abstractNote = {The objectives of our experiment are as followed; 1. to develop the simply and rapidly measurable system for various parameters of emanated radiation by using the diode with low cost and easy availability, 2. to establish the basic technique for computerization of measurement system. The results are as followed; Detector, using 1N4007 silicon diode, was selected as the most superior probe, because the leakage current was 0.5pA, signal current 1.82nA, and the ratio of noise/signal was 0.03%. The measured results showed that linearity and stability of 1N4007 silicon diode detector were within 1.6%, sensitivity by radiation damage was decreased maximum 1% per 100Gy. Also, beam flatness and symmetry were within 2%. (Author).}
place = {Korea, Republic of}
year = {1993}
month = {Dec}
}
title = {Development of high energy radiation measurement system with diode}
author = {Ji, Young Hoon, Lee, Dong Han, Koh, Kyung Hwan, Cho, Chul Koo, Yoon, Hyong Keun, Lee, Seong Koo, and Choi, Moon Sik}
abstractNote = {The objectives of our experiment are as followed; 1. to develop the simply and rapidly measurable system for various parameters of emanated radiation by using the diode with low cost and easy availability, 2. to establish the basic technique for computerization of measurement system. The results are as followed; Detector, using 1N4007 silicon diode, was selected as the most superior probe, because the leakage current was 0.5pA, signal current 1.82nA, and the ratio of noise/signal was 0.03%. The measured results showed that linearity and stability of 1N4007 silicon diode detector were within 1.6%, sensitivity by radiation damage was decreased maximum 1% per 100Gy. Also, beam flatness and symmetry were within 2%. (Author).}
place = {Korea, Republic of}
year = {1993}
month = {Dec}
}