Abstract
The depth profile of double bond formed in low density polyethylene (LDPE) sheet by ion beams irradiation was observed by a micro FT-IR spectrometer in order to investigate the linear energy transfer (LET) dependency on radiation effects to polymer materials. The distribution of double bond formation in LDPE by irradiation of light ions as H+ was found to be same with the dose distribution calculated from TRIM code, and the yield was also same with that by gamma-rays irradiation, which means that the LET dependency is very small. However, the distribution of double bond to depth was much different from the calculated depth-dose in heavy ions irradiation as Ar and Kr. Then, the dose evaluation was difficult from the TRIM code calculation for heavy ions. (author)
Sugimoto, Masaki;
Kudoh, Hisaaki;
Sasuga, Tsuneo;
Seguchi, Tadao;
[1]
Hama, Yoshimasa;
Hamanaka, Ken-ichi;
Matsumoto, Hideya
- Japan Atomic Energy Research Inst., Tokyo (Japan)
Citation Formats
Sugimoto, Masaki, Kudoh, Hisaaki, Sasuga, Tsuneo, Seguchi, Tadao, Hama, Yoshimasa, Hamanaka, Ken-ichi, and Matsumoto, Hideya.
Distribution of products in polymer materials induced by ion-beam irradiation.
Japan: N. p.,
1997.
Web.
Sugimoto, Masaki, Kudoh, Hisaaki, Sasuga, Tsuneo, Seguchi, Tadao, Hama, Yoshimasa, Hamanaka, Ken-ichi, & Matsumoto, Hideya.
Distribution of products in polymer materials induced by ion-beam irradiation.
Japan.
Sugimoto, Masaki, Kudoh, Hisaaki, Sasuga, Tsuneo, Seguchi, Tadao, Hama, Yoshimasa, Hamanaka, Ken-ichi, and Matsumoto, Hideya.
1997.
"Distribution of products in polymer materials induced by ion-beam irradiation."
Japan.
@misc{etde_588359,
title = {Distribution of products in polymer materials induced by ion-beam irradiation}
author = {Sugimoto, Masaki, Kudoh, Hisaaki, Sasuga, Tsuneo, Seguchi, Tadao, Hama, Yoshimasa, Hamanaka, Ken-ichi, and Matsumoto, Hideya}
abstractNote = {The depth profile of double bond formed in low density polyethylene (LDPE) sheet by ion beams irradiation was observed by a micro FT-IR spectrometer in order to investigate the linear energy transfer (LET) dependency on radiation effects to polymer materials. The distribution of double bond formation in LDPE by irradiation of light ions as H+ was found to be same with the dose distribution calculated from TRIM code, and the yield was also same with that by gamma-rays irradiation, which means that the LET dependency is very small. However, the distribution of double bond to depth was much different from the calculated depth-dose in heavy ions irradiation as Ar and Kr. Then, the dose evaluation was difficult from the TRIM code calculation for heavy ions. (author)}
place = {Japan}
year = {1997}
month = {Mar}
}
title = {Distribution of products in polymer materials induced by ion-beam irradiation}
author = {Sugimoto, Masaki, Kudoh, Hisaaki, Sasuga, Tsuneo, Seguchi, Tadao, Hama, Yoshimasa, Hamanaka, Ken-ichi, and Matsumoto, Hideya}
abstractNote = {The depth profile of double bond formed in low density polyethylene (LDPE) sheet by ion beams irradiation was observed by a micro FT-IR spectrometer in order to investigate the linear energy transfer (LET) dependency on radiation effects to polymer materials. The distribution of double bond formation in LDPE by irradiation of light ions as H+ was found to be same with the dose distribution calculated from TRIM code, and the yield was also same with that by gamma-rays irradiation, which means that the LET dependency is very small. However, the distribution of double bond to depth was much different from the calculated depth-dose in heavy ions irradiation as Ar and Kr. Then, the dose evaluation was difficult from the TRIM code calculation for heavy ions. (author)}
place = {Japan}
year = {1997}
month = {Mar}
}