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Journal of Electromagnetic Waves and Applications Volume 30, 2016 - Issue 6
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Articles

Effect of air breakdown in near-field region on maximum power radiated from aperture antenna

Pengcheng ZhaoSchool of Physics and Optoelectronic Engineering, Xidian University, Xi’an, China.Correspondence[email protected]
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Lixin GuoSchool of Physics and Optoelectronic Engineering, Xidian University, Xi’an, China.View further author information
Pages 795-804 | Received 23 Apr 2015, Accepted 02 Feb 2016, Published online: 06 Apr 2016

References

  • Golubev AI, Sysoeva TG, Terekhin VA, et al. Kinetic model of the propagation of intense subnanosecond electromagnetic pulse through the lower atmosphere. IEEE Trans. Plasma Sci. 2000;28:303–311.
  • Krile JT, McQuage L, Edmiston GF, et al. Short-pulse high-power microwave surface flashover at 3 GHz. IEEE Trans. Plasma Sci. 2009;37:2139–2145.
  • Cook A, Shapiro M, Temkin R. Pressure dependence of plasma structure in microwave gas breakdown at 110 GHz. Appl. Phys. Lett. 2010;97:011504-1–011504-3.
  • Chen CH, Chang C, Liu WY, et al. Improving the microwave window breakdown threshold by using a fluorinated, periodically patterned surface. J. Appl. Phys. 2013;114:163304-1–163304-7.
  • Zhao P, Liao C, Lin W. Numerical studies of the propagation of high-power damped sine microwave pulse in the atmosphere. J. Electromagn. Waves Appl. 2011;25:2365–2378.
  • Foster J, Krompholz H, Neuber AA. Investigation of the delay time distribution of high power microwave surface flashover. Phys. Plasmas. 2011;18:013502-1–013502-5.
  • Wang F, Adolphsen C. Localization of rf breakdowns in a standing wave cavity. Phys. Rev. ST Accel. Beams. 2009;12:042001-1–042001-3.
  • Nam SK, Verboncoeur JP. Global model for high power microwave breakdown at high pressure in air. Computer Phys. Commun. 2009;180:628–635.
  • Neuber AA, Edmiston GF, Krile JT, et al. Interface breakdown during high-power microwave transmission. IEEE Trans. Plasma Sci. 2007;43:496–500.
  • Ford PJ, Beeson SR, Krompholz HG, et al. A finite-difference time-domain simulation of high power microwave generated plasma at atmospheric pressures. Phys. Plasmas. 2012;19:073503-1–073503-8.
  • Yang Y, Yuan C, Qian B. Gas breakdown driven by L band short-pulse high-power microwave. Phys. Plasmas. 2012;19:122101-1–122101-5.
  • Zhao P, Feng J, Liao C. Breakdown in air produced by high power microwaves. IEEE Trans. Plasma Sci. 2014;42:1560–1566.
  • Zhang J, Wang J. Maximum power radiated from aperture antenna before air breakdown in the near-field region. IEEE Electromagn. Compat. 2011;53:540–543.
  • Stutzman WL, Thiele GA. Antenna theory and design. 2nd ed. New York (NY): Wiley; 1998.
  • Xu C, Tian H, Reece CE, et al. Enhanced characterization of niobium surface topography. Phys. Rev. ST Accel. Beams. 2011;14:123501.
  • Xu C, Tian H, Reece CE, et al. Topographic power spectral density study of the effect of surface treatment processes on niobium for superconducting radio frequency accelerator cavities. Phys. Rev. ST Accel. Beams. 2012;15:043502.
  • Knobloch J, Geng RL, Liepey M, et al. High field q-slope in superconducting cavities due to magnetic field enhancement at grain boundaries. Proceedings of the International Workshop on Radiofrequency Superconductivity Los Alamos National Laboratory, Santa Fe, NM; 1999. p. 99.
  • Nam SK, Verboncoeur JP. Effect of electron energy distribution function on the global model for high power microwave breakdown at high pressures. Appl. Phys. Lett. 2008;92:231502-1–231502-3.
  • Hagelaar GJM, Pitchford LC. Solving the Boltzmann equation to obtain electron transport coefficients and rate coefficients for fluid models. Plasma Sources Sci. Technol. 2005;14:722–733.
  • Zhao P, Liao C, Yang D, et al. Validity of the two-term Boltzmann approximation employed in the fluid model for high-power microwave breakdown in gas. Chin. Phys. B. 2014;23:055101-1–055101-5.
  • Tetenbaum SJ, MacDonald AD, Bandel HW. Pulsed microwave breakdown of air from 1 to 1000 Torr. J. Appl. Phys. 1971;42:5871–5872.
  • Zhu M, Chang C, Yan K, et al. Theory of nanosecond high-power microwave breakdown on the atmosphere side of the dielectric window. IEEE Trans. Plasma Sci. 2015;43:1670–1674.

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