Abstract
The development of short-pulse ultra high intensity lasers will enable us to generate short-pulse intense soft and hard X-rays. Acceleration of an electron in laser field generates intense illuminated located radiation, Larmor radiation, around KeV at 10{sup 18} W/cm{sup 2} with 100 TW and 1 {mu}m wave length laser. The Coulomb interaction between rest ions and relativistic electron generates broad energy radiation, bremsstrahlung emission, over MeV at 10{sup 18} W/cm{sup 2} with the same condition. These intense radiations come in short pulses of the same order as that of the irradiated laser. The generated intense X-rays, Larmor and bremsstrahlung radiation, can be applied to sources of short pulse X-ray, excitation source of inner-shell X-ray laser, position production and nuclear excitation, etc. (author)
Ueshima, Yutaka;
Kishimoto, Yasuaki;
Sasaki, Akira;
[1]
Sentoku, Yasuhiko;
Tajima, Toshiki
- Japan Atomic Energy Research Inst., Neyagawa, Osaka (Japan). Kansai Research Establishment
Citation Formats
Ueshima, Yutaka, Kishimoto, Yasuaki, Sasaki, Akira, Sentoku, Yasuhiko, and Tajima, Toshiki.
Simulation of intense laser-dense matter interactions. X-ray production and laser absorption.
Japan: N. p.,
1998.
Web.
Ueshima, Yutaka, Kishimoto, Yasuaki, Sasaki, Akira, Sentoku, Yasuhiko, & Tajima, Toshiki.
Simulation of intense laser-dense matter interactions. X-ray production and laser absorption.
Japan.
Ueshima, Yutaka, Kishimoto, Yasuaki, Sasaki, Akira, Sentoku, Yasuhiko, and Tajima, Toshiki.
1998.
"Simulation of intense laser-dense matter interactions. X-ray production and laser absorption."
Japan.
@misc{etde_307660,
title = {Simulation of intense laser-dense matter interactions. X-ray production and laser absorption}
author = {Ueshima, Yutaka, Kishimoto, Yasuaki, Sasaki, Akira, Sentoku, Yasuhiko, and Tajima, Toshiki}
abstractNote = {The development of short-pulse ultra high intensity lasers will enable us to generate short-pulse intense soft and hard X-rays. Acceleration of an electron in laser field generates intense illuminated located radiation, Larmor radiation, around KeV at 10{sup 18} W/cm{sup 2} with 100 TW and 1 {mu}m wave length laser. The Coulomb interaction between rest ions and relativistic electron generates broad energy radiation, bremsstrahlung emission, over MeV at 10{sup 18} W/cm{sup 2} with the same condition. These intense radiations come in short pulses of the same order as that of the irradiated laser. The generated intense X-rays, Larmor and bremsstrahlung radiation, can be applied to sources of short pulse X-ray, excitation source of inner-shell X-ray laser, position production and nuclear excitation, etc. (author)}
place = {Japan}
year = {1998}
month = {Mar}
}
title = {Simulation of intense laser-dense matter interactions. X-ray production and laser absorption}
author = {Ueshima, Yutaka, Kishimoto, Yasuaki, Sasaki, Akira, Sentoku, Yasuhiko, and Tajima, Toshiki}
abstractNote = {The development of short-pulse ultra high intensity lasers will enable us to generate short-pulse intense soft and hard X-rays. Acceleration of an electron in laser field generates intense illuminated located radiation, Larmor radiation, around KeV at 10{sup 18} W/cm{sup 2} with 100 TW and 1 {mu}m wave length laser. The Coulomb interaction between rest ions and relativistic electron generates broad energy radiation, bremsstrahlung emission, over MeV at 10{sup 18} W/cm{sup 2} with the same condition. These intense radiations come in short pulses of the same order as that of the irradiated laser. The generated intense X-rays, Larmor and bremsstrahlung radiation, can be applied to sources of short pulse X-ray, excitation source of inner-shell X-ray laser, position production and nuclear excitation, etc. (author)}
place = {Japan}
year = {1998}
month = {Mar}
}