Korean Journal of Optics and Photonics (한국광학회지)

Optical Society of Korea (한국광학회)
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Generation and fluorescence measurement of HF* molecules excited by combustion of fluorine and hydrogen

불소-수소 연소 열을 이용한 들뜬 상태 HF* 분자의 생산 및 형광 측정

  • 최윤동 (한국원자력연구소 양자광학팀) ;
  • 권성옥 (한국원자력연구소 양자광학팀) ;
  • 김택숙 (한국원자력연구소 양자광학팀) ;
  • 김성훈 (한국원자력연구소 양자광학팀) ;
  • 김응호 (한국원자력연구소 양자광학팀) ;
  • 김철중 (한국원자력연구소 양자광학팀)
  • Published : 2001.06.01
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Abstract

Operation conditions for the generation of an HF laser driven by fluorine-hydrogen combustion were discussed by mc:asuring the intensities of excited HF* molecules. Optimum injection quantities of fluorine gas for the generation of fluorine atoms was two times the injection mole number of hydrogen fuel. Slit nozzles with two dimensional configuration were used for the production of excited HF* molecules. When the injection mole number of secondary hydrogen gas is 1.3 times the injection mole number of fluorine gas, the fluorescence intensities of excited HF* molecules show maximum values. alues.

들뜬 상태 HF* 분자으 형광세기를 측정하여 불소-수소 연소 유도에 의한 HF 레이저발진을 위한 조업조언을 논하였다. 불소원자 생산을 위한 적정 불소 주입 조건은 수소연료 주입 몰(mole)수의 두 배이었다. 들뜬 상태 HF*분자 생산을 위하여 슬릿형태의 이차원적 구조를 가지는 연소노즐을 이용하였으며, 이차 수소연료의 주입 몰수가 불소기체 주입 몰수의 1.3배 일 경우 들뜬 상태 HF* 분자의 형광세기는 최대를 나타내었다.

Keywords

References

  1. Appl. Phys. Lett. v.16 no.6 Preliminary performance of a cw chemical laser D. J. Spencer;H. Mirels;T. A. Jacobs;R. W. Gross
  2. Handbook of Chemical Laser R. W. F. Gross;D. J. Spencer
  3. 31th Plasmadynamics and Lasers Conference '00 Recent results from the Alpha laser optimization program C. D. Fitzgerald;S. Amimoto;D. Johannsen;M.Kwok;B. Bendow;R. S. Bradford, Jr;P. Dickinson;S. Fawver;D. Fluegge;R. Geopfarth;P. Lohn;J. Nella;D. E. Novoseller;C. C. Shih
  4. 30th Plasmadynamics and Lasers Conference '99 An investigation of super-sonic mixing mechanisms for the chemical oxygen-iodine laser T. J. Madden;G. D. Hager
  5. U.S. Patent 4375687 Hypersonic wedge nozzle for chemical lasers D. I. Hook;J. Waypo;T. A. Jacobs
  6. U.S. Patent 4220933 Baffle/nozzle array for cylindrical lasers R. F. Kuhn Jr.
  7. U.S. Patent 4453914 Low heat loss laser combustion chamber S. Huniu;W. C. Bailey
  8. Quantum Electronics v.28 no.2 Influence of the Mach number of the oxidant flow on the energy gasdynamic characteristics of a supersonic cw chemical HF laser with a radial-expansion nozzle array V. K. Rebone;M. A. Rotinyan;I. A. Fedorov;A. M. Krivitski;M. V. Moroz
  9. Proc. SPIE v.2702 HF overtone chemical laser technology B. R. Graves;W. A. Duncan;S. P. Patterson;G. N. Yonehara;J. Waypa
  10. TRW systems groups report 2-5 Micron Chemical Laser G. W. Holleman;H. M. Bobitch
  11. TRW systems groups report 3-5 Micron Chemical Laser F. N. Mastrup;H. M. Bobitch;G. W. Holleman
  12. J. Chem. Phys. v.55 no.8 Shock-tube studies of HF vibrational relaxation J.F. Bott;N. Cohen