A pulsed HF chemical laser of the HI/SF6 system can be used as an oscillator or a preamplifier for the laser power-amplifier system of the H2/F2 system. The HF chemical laser of the HI/SF6 system is predicted to extract more energy than the other mixed systems, but the results of calculations based on a simulation model were not in agreement with experiment. In this paper, our calculation was based on the assumption that the HI molecules dissociated upon the initiation. The pulsed HF chemical laser of the HI/SF6 system is here treated theoretically, utilizing the constant-gain methode by a pulsed chemical laser code. The pulsed HF chemical laser is characterized by the laser output energy, power and pulse width. The calculated results in accordance with the assumption that 1% of SF6 and 25% of HI are dissociated by the electric discharge, are in good agreement with the experimental data for a pulsed HF chemical laser of the HI/SF6 system with the Blumlein-discharge circuit.
The copyright of the original papers published on this site belongs to IEICE. Unauthorized use of the original or translated papers is prohibited. See IEICE Provisions on Copyright for details.
Copy
Yutaka SATO, Tomoo FUJIOKA, "The Pulsed HF Chemical Laser of the HI/SF6 System--Theoretical Study--" in IEICE TRANSACTIONS on transactions,
vol. E63-E, no. 7, pp. 507-513, July 1980, doi: .
Abstract: A pulsed HF chemical laser of the HI/SF6 system can be used as an oscillator or a preamplifier for the laser power-amplifier system of the H2/F2 system. The HF chemical laser of the HI/SF6 system is predicted to extract more energy than the other mixed systems, but the results of calculations based on a simulation model were not in agreement with experiment. In this paper, our calculation was based on the assumption that the HI molecules dissociated upon the initiation. The pulsed HF chemical laser of the HI/SF6 system is here treated theoretically, utilizing the constant-gain methode by a pulsed chemical laser code. The pulsed HF chemical laser is characterized by the laser output energy, power and pulse width. The calculated results in accordance with the assumption that 1% of SF6 and 25% of HI are dissociated by the electric discharge, are in good agreement with the experimental data for a pulsed HF chemical laser of the HI/SF6 system with the Blumlein-discharge circuit.
URL: https://global.ieice.org/en_transactions/transactions/10.1587/e63-e_7_507/_p
Copy
@ARTICLE{e63-e_7_507,
author={Yutaka SATO, Tomoo FUJIOKA, },
journal={IEICE TRANSACTIONS on transactions},
title={The Pulsed HF Chemical Laser of the HI/SF6 System--Theoretical Study--},
year={1980},
volume={E63-E},
number={7},
pages={507-513},
abstract={A pulsed HF chemical laser of the HI/SF6 system can be used as an oscillator or a preamplifier for the laser power-amplifier system of the H2/F2 system. The HF chemical laser of the HI/SF6 system is predicted to extract more energy than the other mixed systems, but the results of calculations based on a simulation model were not in agreement with experiment. In this paper, our calculation was based on the assumption that the HI molecules dissociated upon the initiation. The pulsed HF chemical laser of the HI/SF6 system is here treated theoretically, utilizing the constant-gain methode by a pulsed chemical laser code. The pulsed HF chemical laser is characterized by the laser output energy, power and pulse width. The calculated results in accordance with the assumption that 1% of SF6 and 25% of HI are dissociated by the electric discharge, are in good agreement with the experimental data for a pulsed HF chemical laser of the HI/SF6 system with the Blumlein-discharge circuit.},
keywords={},
doi={},
ISSN={},
month={July},}
Copy
TY - JOUR
TI - The Pulsed HF Chemical Laser of the HI/SF6 System--Theoretical Study--
T2 - IEICE TRANSACTIONS on transactions
SP - 507
EP - 513
AU - Yutaka SATO
AU - Tomoo FUJIOKA
PY - 1980
DO -
JO - IEICE TRANSACTIONS on transactions
SN -
VL - E63-E
IS - 7
JA - IEICE TRANSACTIONS on transactions
Y1 - July 1980
AB - A pulsed HF chemical laser of the HI/SF6 system can be used as an oscillator or a preamplifier for the laser power-amplifier system of the H2/F2 system. The HF chemical laser of the HI/SF6 system is predicted to extract more energy than the other mixed systems, but the results of calculations based on a simulation model were not in agreement with experiment. In this paper, our calculation was based on the assumption that the HI molecules dissociated upon the initiation. The pulsed HF chemical laser of the HI/SF6 system is here treated theoretically, utilizing the constant-gain methode by a pulsed chemical laser code. The pulsed HF chemical laser is characterized by the laser output energy, power and pulse width. The calculated results in accordance with the assumption that 1% of SF6 and 25% of HI are dissociated by the electric discharge, are in good agreement with the experimental data for a pulsed HF chemical laser of the HI/SF6 system with the Blumlein-discharge circuit.
ER -