Investigation of the energy characteristics of a plasma created in air near a target by CO₂ laser radiation

1. Yu. P. Raizer, The Laser Spark and Propagation of Discharges [in Russian], Nauka, Moscow (1974).

   Google Scholar 

2. E. A. Kozik, T. V. Loseva, et al., “Subsonic radiation waves, propagating from a barrier toward the CO₂ laser radiation,” Kvantovaya Elektron.,5, No. 10 (1978).

3. V. A. Boiko, V. A. Danilyhev, et al., “Investigation of gas dynamic processes and recoil momentum with optical breakdown of air near the surface of a target under the action of electroionization CO₂ laser radiation,” Kvantovaya Elektron.,3, No. 9, (1976).

4. V. P. Ageev, A. I. Varchukov, et al., “Investigation of the mechanical action of pulsed CO₂ laser radiation on solid targets in a gaseous medium,” Kvantovaya Elektron.,4, No. 2 (1977).

5. V. A. Danilychev, V. D. Zvorykin, et al., “Investigation of the dynamics of plasma formation near a target under the action of microsecond CO₂ laser pulses,” Kvantovaya Elektron.,7, No. 12 (1980).

6. A. A. Bakeev, L. I. Nikolashina, and N. V. Prokopenko, “Propagation of laser absorption waves under the action of 10.6-μm radiation,” Kvantovaya Elektron.,7, No, 6 (1980).

7. A. A. Uglov and A. L. Galiev, “Characteristics of the development of laser plasma near a solid target in gases under high pressure,” Kvantovaya Elektron.,7, No. 12 (1980).

8. V. P. Korobeinikov, P. I. Chushkin, and K. V. Sharovatova, “Gas-dynamic functions of a point explosion,” Trudy VTs Akad. Nauk SSSR (1969).

9. V. P. Korobeinikov, “Problem of the theory of a point explosion in gases,” Trudy Ml Akad. Nauk SSSR, No. 119 (1973).

10. A. V. Melekhov, A. M. Orishich, et al., “Powerful CO₂ amplifier for generating plasma clouds” in: Interaction of Laser Radiation with Matter [in Russian], Ed. by A. G. Ponomarenko, ITPM Sib. Otd. Akad. Nauk SSSR, Novosibirsk (1980).

    Google Scholar 

11. V. V. Maksimov, A. M. Orishich, and L. M. Pakhomov, “Experimental investigations of the characteristics of radiation receivers based on photon drag,” Preprint ITPM Sib. Otd. Akad. Nauk SSSR, No. 2 (1979).

12. L. A. Dushin and S. S. Pavlichenko, Investigation of Plasma with the Help of Lasers [in Russian], Atomizdat, Moscow (1968).

    Google Scholar 

13. R. I. Soloukhin, Shock Waves and Detonations in Gases [in Russian], Fizmatgiz, Moscow (1963).

    Google Scholar 

14. J. H. Jacob, E. R. Puph, et al., “An absolute method of measuring energy output from CO₂ lasers,” Rev. Sci. Instrum.,44, No. 4 (1973).

15. A. S. Predvoditelev, E. V. Stupochenko, E. V. Samuilov, et al., Tables of Thermodynamic Functions of Air (For Temperatures From 200 to 6000°K and Pressures From 0.00001 to 100 atm) [in Russian], VTS Akad. Nauk SSSR (1962).

16. V. I. Bergel'son, T. V. Loseva, and I. V. Nemchinov, “Numerical calculation of problems involving propagation of a flat subsonic radiation wave along a gas toward a light flux,” Zh. Prikl. Mekh. Tekh. Fiz., No. 4 (1974).

17. K. P. Stanyukovich, Non-Steady-State Motion of a Continuous Medium [in Russian], Nauka, Moscow (1971).

    Google Scholar 

18. K. P. Stanyukovich [ed.], Physics of Explosions [in Russian], Nauka, Moscow (1975).

    Google Scholar 

Download references