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    Journals >Chinese Journal of Quantum Electronics >Volume 22 >Issue 5 >Page 690 > Article
    • Chinese Journal of Quantum Electronics
    • Vol. 22, Issue 5, 690 (2005)
    Numerical simulation of a chemical oxygen-iodine laser with chemical generation of atomic iodine
    [in Chinese]* and [in Chinese]
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  • [in Chinese]
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    [in Chinese], [in Chinese]. Numerical simulation of a chemical oxygen-iodine laser with chemical generation of atomic iodine[J]. Chinese Journal of Quantum Electronics, 2005, 22(5): 690 Copy Citation Text show less
    References

    [1] Hon J. Heuristic method for evaluating COIL performance [J]. AIAA, 1996, 34: 1595.

    [2] Endo M, Kawakami M, Takeda S, et al. Output power enhancement by the injection of dissociated iodine in supersonic chemical oxygen-iodine laser [C] ∥ Proceedings of SPIE, 3612: 56.

    [3] Shinji Ide, Tsuyoshi Wakazono, Takahiro Takemoto, et al. Chemical oxygen-iodine laser for high-power utilizing rf discharge dissociation of I2 [C] ∥Proceedings of SPIE, 2001, 4184: 95.

    [4] Palek O, Jirasek V, et al. Experimental results on chemical generation of atomic iodine via Cl atoms for chemical oxygen-Iodine laser [C] ∥Proceedings of SPIE, 2003, 5120: 350.

    [5] Arnold S J, Foster L D, Shelling D R. A purely chemical HCl laser employing transverse flow [J]. IEEE Journal of Quantum Electronics, 1978, QE14: 293.

    [6] Yang T T, Copeland D A, Bauer A H. Chemical oxygen-iodine laser performance modeling [J]. AIAA, 1997, 97:2384.

    [7] van den ergh H, Troc J. Kinetic and thermodynamic properties of INO and INO2 intermediate complexes in iodine recombination [J]. J. Chem. Phys., 1976, 64: 736.

    [8] Clync M A A, Cruse H W. Studies of ground-state 2P halogen atoms using atomic resonance absorption [J].Trans. Faraday Soc., 1971, 67: 2869.

    [10] Kulagin Y A, Shelepin L A, Yarygina V N. The measurement of the singletdelta oxygen yield in the reaction of the chlorine with peroxide containing compounds [J]. Trudy FIAN, 1994, 218: 166.

    [11] Singh J P, Bachar J, Setser D W. Electronic-to-Vibrational energy-transfer studies of singlet molecular oxygen.1, [J]. J. Phys. Chem., 1985, 89: 5347.

    [12] Bechker K H, Groth W, Schurath U. The quenching of metastable O2(1△g) and O2(1△g+) molecules [J]. Chem.Phys. Lett., 1971, 8: 259.

    [13] Pritt A T, Coombe R D. I(2P1/2) quenching by hydrogen halides [J]. J. Chem. Phys., 1976, 65: 2096.

    [14] Carroll D L. Modeling high-pressure chemical oxygen-iodine lasers [J]. AIAA. J, 1995, 33: 1454.

    [15] Jirasek V, Spalek O, Kodymova J. Modeling of the chemical generation of atomic iodine in a chemical oxygeniodine laser [C] ∥ Proceedings of SPIE, 4631: 43.

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    [in Chinese], [in Chinese]. Numerical simulation of a chemical oxygen-iodine laser with chemical generation of atomic iodine[J]. Chinese Journal of Quantum Electronics, 2005, 22(5): 690
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