Simulation of ion generation and breakdown in atmospheric air

Understanding of ion generation in air provides insights to several applications, such as gas sensors, electrohydrodynamic pumping, and air purification. In this paper, ion generation processes in atmospheric air are simulated using a particle-in-cell and Monte Carlo method with emphasis on the prediction of ion generation and breakdown characteristics in microscale gaps. The simulation results are validated through comparison to Townsend’s discharge theory and experiments. The significance of each relevant electron-molecule reaction is characterized to improve understanding of ion generation dynamics. Self-sustaining discharge and ionization are predicted under sufficient voltage bias, and the predicted trends of breakdown voltage are similar to those obtained from Paschen’s curve. Corrections to Paschen’s curve in microscale gaps also are identified and compare well to experiments. Electron field emission produces stable electron current that suggests a controllable ionization device without external el...

[1]  K. Touryan,et al.  An air breakdown kinetic model , 1991 .

[2]  W. Morgan Electron Collision Data for Plasma Chemistry Modeling , 2000 .

[3]  M. Esashi,et al.  Micro-discharge and electric breakdown in a micro-gap , 2000 .

[4]  J. Vaughan,et al.  A new formula for secondary emission yield , 1989 .

[5]  T. Chung,et al.  A particle-in-cell simulation of the breakdown and period doubling thresholds for a RF discharge Ar plasma , 1996 .

[6]  A. V. Phelps,et al.  Cross Sections and Swarm Coefficients for Nitrogen Ions and Neutrals in N2 and Argon Ions and Neutrals in Ar for Energies from 0.1 eV to 10 keV , 1991 .

[7]  H. Laster,et al.  Encyclopedia of physics. , 1966, Science.

[8]  G. Auriemma,et al.  Experimental determination of the Townsend coefficient for Argon–CO2 gas mixtures at high fields , 2003, physics/0307073.

[9]  C. Spindt,et al.  Physical properties of thin‐film field emission cathodes with molybdenum cones , 1976 .

[10]  C. Birdsall,et al.  Plasma Physics via Computer Simulation , 2018 .

[11]  Phelps,et al.  Anisotropic scattering of electrons by N2 and its effect on electron transport. , 1985, Physical review. A, General physics.

[12]  B. Grosswendt,et al.  Comparative study of gas amplification and energy resolution in some argon-based mixtures , 2000 .

[13]  R. Dhariwal,et al.  Electric field breakdown at micrometre separations , 1999 .

[14]  Marc P.Y. Desmulliez,et al.  Electric field breakdown at micrometre separations in air and nitrogen at atmospheric pressure , 2000 .

[15]  Iain D. Boyd,et al.  Hybrid Monte Carlo -Particle-in-Cell Simulation of an Ion Thruster Plume , 1999 .

[16]  B. Z. Cybyk,et al.  Direct Simulation Monte Carlo: Recent Advances and Applications , 1998 .

[17]  S. Lawton,et al.  Excitation of the b 1Σ+g state of O2 by low energy electrons , 1978 .

[18]  P. Slade,et al.  Electrical breakdown in atmospheric air between closely spaced (0.2 /spl mu/m-40 /spl mu/m) electrical contacts , 2001 .

[19]  B. Grosswendt,et al.  Experimental study of gas mixtures in strong non-uniform electric fields , 2001 .

[20]  Michael M. Ohadi,et al.  Design, fabrication, and testing of an electrohydrodynamic ion-drag micropump , 2002 .

[21]  D. Rapp,et al.  Total Cross Sections for Ionization and Attachment in Gases by Electron Impact. I. Positive Ionization , 1965 .

[22]  E. Nasser Fundamentals of gaseous ionization and plasma electronics , 1971 .

[23]  J. Townsend,et al.  Electricity in gases , 2022 .

[24]  K. Nishikawa,et al.  Air Purification Effect of Positively and Negatively Charged Ions Generated by Discharge Plasma at Atmospheric Pressure , 2001 .

[25]  C. Charles,et al.  Breakdown behavior in radio-frequency argon discharges , 2003 .

[26]  John P. Verboncoeur,et al.  An object-oriented electromagnetic PIC code , 1995 .

[27]  Hiroaki Nishimura,et al.  Cross Sections for Collisions of Electrons and Photons with Oxygen Molecules , 1986 .

[28]  R. Fowler,et al.  Electron Emission in Intense Electric Fields , 1928 .

[29]  Stephen Buckman,et al.  Electron-molecule scattering cross-sections. I. Experimental techniques and data for diatomic molecules , 2002 .

[30]  Maheswaran Surendra,et al.  A Monte Carlo collision model for the particle-in-cell method: applications to argon and oxygen discharges , 1995 .

[31]  O. Zhou,et al.  Very large current density from carbon nanotube field emitters , 1999, International Electron Devices Meeting 1999. Technical Digest (Cat. No.99CH36318).

[32]  Bingqing Wei,et al.  Miniaturized gas ionization sensors using carbon nanotubes , 2003, Nature.

[33]  F. H. Sanders,et al.  Measurement of the Townsend Coefficients for Ionization by Collision , 1933 .

[34]  S. Tavernier,et al.  A measurement of the first Townsend coefficient as a function of the electric field for a TMAE-He mixture , 1994 .

[35]  H. Michaelson The work function of the elements and its periodicity , 1977 .