Vol. 31, issue 03, article # 8

Trigub M.V., Fedorov V.F., Shiyanov D.V., Evtushenko G.S. Induction-heated metal vapor lasers. // Optika Atmosfery i Okeana. 2018. V. 31. No. 03. P. 203–20 [in Russian].
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Abstract:

Results are presented of the development and study of metal vapors active elements using an induction heater, which is designed to create a required metal vapor concentration. The lasing was obtained at traditional (GDT with internal electrodes) and capacitive (capacitive barrier discharge) excitation of the laser medium; the average laser power was 20 mW. For the Cu-vapor active element under capacitive excitation, two generation pulses with a time delay of 50 ns were detected. Thus, within the limits of a single pump pulse, the lasing was obtained with a frequency of 20 MHz.

Keywords:

metal vapor laser, induction heater, traditional excitation, capacitive excitation, gas discharge tube

References:

  1. Little C.E. Metal Vapor Lasers: Physics, Engineering and Applications. Chichester (UK), John Wiley & Sons, 1998. 620 p.
  2. Batenin V.M., Buchanov V.V., Kazarjan M.A., Molodyh Je.I., Klimovskij I.I. Lazery na samoogranichennyh perehodah atomov metallov. M.: Nauch. kniga, 1998. 544 p.
  3. Suhanov V.B., Evtushenko G.S., Shijanov D.V., Chernyshev A.I. Samorazogrevnoj CuBr-lazer // Optika atmosf. i okeana. 2000. V. 13, N 11. P. 1053–1055.
  4. Shijanov D.V., Suhanov V.B., Evtushenko G.S., Tkachenko N.Ju. Lazer na parah iodida medi s vnutrennim reaktorom // Optika atmosf. i okeana. 2012. V. 25, N 8. P. 721–726.
  5. Gubarev F.A., Shiyanov D.V., Sukhanov V.B., Evtushenko G.S. Capacitive-discharge-pumped CuBr laser with 12 w average output power // IEEE J. Quantum Electron. 2013. V. 49, N 1. P. 89–94.
  6. Batenin V.M., Kazarjan M.A., Karpuhin V.T., Ljabin N.A., Malikov M.M., Sachkov V.I. Vozbuzhdenie koaksial'nyh lazerov na parah medi impul'sno-periodicheskim indukcionnym razrjadom // Optika atmosf. i okeana. 2016. V. 29, N 2. P. 112–120.
  7. Andrienko O.S., Gubarev F.A., Dimaki V.A., Ivanov A.I., Levickij M.E., Suhanov V.B., Troickij V.O., Fedorov V.F., Filonov A.G., Shijanov D.V. Lazery na parah bromida medi novogo pokolenija // Optika atmosf. i okeana. 2009. V. 22, N 10. P. 999–1009.
  8. Aktivnyj jelement lazera na parah galogenida metalla: Pat. 2420844. Rossija, MPK, H01S 3/03. Andrienko O.S., Suhanov V.B., Troickij V.O., Shijanov D.V.; In-t optiki atmosf. im. V.E. Zueva SO RAN. N 2009101603/28; Zajavl. 19.01.2009; Opubl. 10.06.2011. Bjul. N 20.
  9. Trigub M.V., Shijanov D.V., Suhanov V.B., Evtushenko G.S. Aktivnaja sreda na parah bromida marganca s vnutrennim reaktorom pri chastote sledovanija impul'sov do 100 kHz // Optika atmosf. i okeana. 2014. V. 27, N 4. P. 321–325.
  10. Trigub M.V., Shijanov D.V., Evtushenko G.S. Usilitel'nye harakteristiki aktivnogo jelementa lazera na parah hlorida medi s vnutrennim reaktorom // Izv. vuzov. Fizika. 2012. V. 55, N 10. P. 46–50.
  11. Bohan P.A., Bukova E.S., Kijashkina G.S., Klimkin V.M., Solomonov V.I. Tehnika issledovanija polozhitel'nogo stolba gazovogo razrjada pri vysokih temperaturah // Pribory i tehn. jeksperim. 1974. N 1. P. 160–161.
  12. Bohan P.A., Gerasimov V.A. Optimizacija uslovij vozbuzhdenija v lazere na parah medi // Kvant. jelektron. 1979. V. 6, N 3. P. 451–455.
  13. Trigub M.V., Vlasov V.V., Shijanov D.V., Suhanov V.B., Troickij V.O. Povyshenie jeffektivnosti vozbuzhdenija CuBr-lazera za schet modifikacii razrjadnogo kontura // Optika atmosf. i okeana. 2017. V. 30, N 12. P. 1069–1072.
  14. Gerasimov V.A., Gerasimov V.V. Issledovanie lazera na parah medi pri nakachke cugami zatuhajushhih sinusoidal'nyh impul'sov vozbuzhdenija // ZhTF. 2011. V. 81, iss. 1. P. 153–156.
  15. Fedorov V.F., Shijanov D.V., Fedorov K.V., Evtushenko G.S., Torgaev S.N., Kulagin A.E. Kombinirovannyj slabotochnyj razrjad v lazere na parah medi // ZhTF. 2016. V. 86, iss. 9. P. 113–116.

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