Development of fast ionization wave discharges at high pulse repetition rates

Plasma Chemistry and Plasma Processing

Volumn 32, Issue 3, 2012, Pages 471-493

  Takashima, Keisuke ^a   Adamovich, Igor V ^a   Czarnetzki, Uwe ^b   Luggenhölscher, Dirk ^b  

^a The Ohio State University   (United States)

^b RUHR UNIVERSITY BOCHUM   (Germany)

Author keywords

Electric field measurements; Fast ionization wave; Kinetic modeling; Nanosecond pulse

Indexed keywords

ALTERNATING POLARITY; CAPACITIVE PROBE; CENTERLINES; CHANNEL WALL; DECAYING PLASMA; DISCHARGE ENERGY; DISCHARGE POWER; DISCHARGE PULSE; DRY AIR; ELECTRIC FIELD DISTRIBUTIONS; FAST IONIZATION WAVE; HIGH PULSE REPETITION RATE; HIGH REPETITION RATE; HIGH VOLTAGE PULSE; IONIZATION WAVES; KINETIC MODELING; LONG TIME DELAYS; NANOSECOND PULSE; NEGATIVE POLARITY; PEAK ELECTRIC FIELD; PEAK VOLTAGE; PLASMA IMAGES; POSITIVE POLARITY; PULSE DURATIONS; RECTANGULAR GEOMETRY; VOLTAGE RISE; WAVE SPEED;

ELECTRIC FIELD MEASUREMENT; ELECTRIC FIELDS; ELECTRIC POTENTIAL; IONIZATION; KINETIC THEORY; LOADING; PULSE GENERATORS; PULSE REPETITION RATE; TIME DELAY;

ELECTRIC DISCHARGES;

EID: 84861230836     PISSN: 02724324     EISSN: None     Source Type: Journal    
DOI: 10.1007/s11090-012-9377-9     Document Type: Conference Paper

References (20)

1. Vasilyak LM, Kostyuchenko SV, Kudryavtsev NN, Filyugin IV (1994) Fast ionization waves under electrical breakdown conditions. Physics-Uspekhi 37:247-269
2. Lagarkov AN, Rutkevich IM (1994) Ionization waves in electric breakdown of gases, Chapter 4. Springer, New York
3. Starikovskaia SM, Anikin NB, Pancheshnyi SV, Zatsepin DV, Starikovskii AYu (2001) Pulsed breakdown at high overvoltage: development, propagation and energy branching. Plasma Sour Sci Technol 10:344-355 (Pubitemid 32534430)
4. Starikovskaya SM (2006) Plasma assisted ignition and combustion. J Phys D Appl Phys 39:R265-R299
5. Starikovskii AY, Anikin NB, Kosarev IN, Mintoussov EI, Nudnova MM, Rakitin AE, Roupassov DV, Starikovskaia SM, Zhukov VP (2008) Nanosecond-pulsed discharges for plasma-assisted combustion and aerodynamics. J Propuls Power 24:1182-1197
6. Takashima K, Adamovich IV, Xiong Z, Kushner MJ, Starikovskaia S, Czarnetzki U, Luggenhölscher D (2011) Experimental and modeling analysis of fast ionization wave discharge propagation in a rectangular geometry. Phys Plasmas 18(8):083505-1-083505-17
7. Tarasenko VF, Yakovlenko SI (2004) The electron runaway mechanism in dense gases and the production of high-power subnanosecond electron beams. Physics-Uspekhi 47:887-905 (Pubitemid 40145005)
8. Petitpas G, Rollier J-D, Darmon A, Gonzalez-Aguilar J, Metkemeijer R, Fulcheri L (2007) A comparative study of non-thermal plasma assisted reforming technologies. Int J Hydrogen Energy 32:2848-2867 (Pubitemid 47374960)
9. Adamovich IV, Lempert WR, Rich JW, Utkin YG (2008) Repetitively pulsed nonequilibrium plasmas for magnetohydrodynamic flow control and plasma-assisted combustion. J Propuls Power 24(6):1198-1215
10. Adamovich IV, Choi I, Jiang N, Kim J-H, Keshav S, Lempert WR, Mintusov E, Nishihara M, Samimy M, Uddi M (2009) Plasma assisted ignition and high-speed flow control: non-thermal and thermal effects. Plasma Sour Sci Technol 18(3):034018-1-034018-13
11. Roupassov DV, Nikipelov AA, Nudnova MM, Starikovskii AYu (2009) Flow separation control by plasma actuator with nanosecond pulsed-periodic discharge. AIAA J 47(1):168
12. Nishihara M, Takashima K, Rich JW, Adamovich IV (2011) Mach 5 Bow shock control by a nanosecond pulse surface dielectric barrier discharge. Phys Fluids 23(6):066101-1-066101-11
13. Little J, Takashima K, Nishihara M, Adamovich I, Samimy M (2012) Separation control with nanosecond pulse driven dielectric barrier discharge plasma actuators. AIAA J 50:350-365
14. Adamovich IV, Nishihara M, Choi I, Uddi M, Lempert WR (2009) Energy coupling to the plasma in repetitive nanosecond pulse discharges. Phys Plasmas 16(11):113505-1-113505-13
15. Yan H, Gaitonde D (2010) Effect of thermally induced perturbation in supersonic boundary layers. Phys Fluids 22(6):064101-1-064101-11
16. Anikin NB, Pancheshnyi SV, Starikovskaia SM, Starikovskii AYu (1998) Breakdown development at high overvoltage: electric field, electronic levels excitation and electron density. J Phys D Appl Phys 31:826-833 (Pubitemid 128572039)
17. Raizer YP (1991) Gas discharge physics, Chapters 2, 4. Springer, Berlin
18. Uddi M, Jiang N, Adamovich IV, Lempert WR (2009) Nitric oxide density measurements in air and air/fuel nanosecond pulse discharges by laser induced fluorescence. J Phys D Appl Phys 42(7):075205-1-075205-18
19. Hagelaar G J M, Pitchford LC (2005) Solving the Boltzmann Equation to obtain electron transport coefficients and rate coefficients for fluid models. Plasma Sour Sci Technol 14:722-733 (Pubitemid 41609425)
20. Anikin NB, Zavialova NA, Starikovskaia SM, Starikovskii AYu (2008) Nanosecond discharge development in long tubes. IEEE Trans Plasma Sci 36:902-903