Jim Browning, Ph.D.

Current Research

Plasma Medicine and Agriculture

Atmospheric pressure ionized gases (plasma) have the potential for numerous uses in pathogen remediation, killing or removing bacterial biofilms and viruses from surfaces and in chronic wounds. Our research looks at novel plasma source arrays for these applications through experiment and through simulation for improved healthcare and improved food safety. The highly collaborative research teams engineers with biochemists and biologists to develop the plasma sources and to improve our understanding of the plasma reactive chemistry and its effects on bacteria and viruses. This research is supported by the National Institutes of Health, the U.S. Department of Agriculture, and NASA.

Vacuum Electron Devices (VEDs)

Our research concerns Microwave Vacuum Electron Devices (MVEDS) and Nano-Vacuum Transistors (NVTs). High power microwave oscillators and amplifiers are used in a wide variety of civilian, industrial, and military applications where high power density, high frequency, or high reliability are needed. Our research looks at using Gated Field Emission Arrays as the electron source for magnetrons and Crossed-Field Amplifiers in order to improve performance and operational capabilities. This effort includes experiments and simulations including the development of new analysis techniques for use with Particle-In-Cell (PIC) codes. Our research is also looking at the reliability and performance of Nano-Vacuum Transistors for use is harsh environments. Such micro-fabricated devices can be used at very high temperatures (>400C) and in high radiation environments. In collaboration with colleagues at the Massachusetts Institute of Technology, Purdue University, University of Colorado, and Southern Methodist University, we pursue research funded by the Air Force Office of Scientific Research and the Office of Naval research.

Biomedical Engineering

One of Dr. Browing’s specialty areas is biomedical engineering. He’s researching atmospheric pressure ionized gases (CAP) and their potential uses in the treatment of chronic wounds (sponsored by the National Institutes of Health) as well as removing biofilms from food processing surfaces (sponsored by the U.S. Department of Agriculture) and supervises a biomedical engineering doctoral student.

Dr. Browning is also a mentor to biomedical doctoral candidate Michael Okebiorun, who is featured in the video below. Video Transcript.

Bio

After graduate school, Dr. Browning joined the Center for Electromagnetics Research at Northeastern University in Boston in 1988. While there he worked on microwave devices, space plasmas, and gated vacuum field emission devices. He also taught in the Electrical and Computer Engineering department. In 1992 he joined Micron Technology in Boise, ID where he worked on the development of Field Emission Displays (FEDs). His work included test and characterization, device physics, packaging, failure analysis, reliability, device design, device manufacturing, and cost analysis. In 1999 he joined PixTech, Inc. where he continued his work on FEDs with emphasis on manufacturing development. In 2001 he became a consultant on FEDs and on other display technologies with work in display characterization and testing, device analysis, and cost analysis. He joined the ECE department at Boise State in 2006. He became the Associate Dean for Research Affairs in the College of Engineering in 2021. His current research interests include cold atmospheric pressure plasma for use in biofilm and virus remediation, microwave vacuum electron devices, and vacuum nano-transistors.

Education

• B.S. and M.S. degrees in Nuclear Engineering from the University of Missouri-Rolla in 1983 and 1985, respectively.
• Ph.D. in Nuclear Engineering and Engineering Physics from the University of Wisconsin-Madison in 1988

Publications

Jim Browning

• Ranajoy Bhattacharya, Mason Cannon, Rushmita Bhattacharjee, Girish Rughoobur, Nedeljko Karaulac, Winston Chern, Akintunde Ibitayo Akinwande, Jim Browning, “Effect of room air exposure on the field emission performance of UV light irradiated Si-gated field emitter arrays,” J. Vac. Sci. Technol. B, 010601 (2022). https://doi.org/10.1116/6.0001593
• NR Sree Harsha, M Pearlman, J Browning, AL Garner, “A multi-dimensional Child–Langmuir law for any diode geometry,” Physics of Plasmas 28 (12), 122103 (2021). https://doi.org/10.1063/5.0071018
• Adam Croteau, Amanda White, Kenneth A Cornell, Jim Browning, “Cold Atmospheric Pressure Plasma Device Exhibits Etching Effects on Bacterial Biofilms,” IEEE Trans. on Plasma and Medical Sci, Dec (2021). DOI: 10.1109/TRPMS.2021.3133183
• R. Bhattacharya, N, Karaulac, G. Rughoobur, W. Chern, A. I. Akinwande, and J. Browning, “Ultra-violet light stimulated water desorption effect on emission performance of gated field emitter array,” J. Vac. Sci. Technol. B 39, 033201 (2021). https://doi.org/10.1116/6.0001036
• A. M. Darr, R. Bhattacharya J. Browning, and A. L. Garner, “Space-charge limited current in planar and cylindrical crossed-field diodes using variational calculus,” Phys. Plasmas 28, 082110 (2021).
• Ranajoy Bhattacharya, Jin-Woo Han, Jim Browning, M Meyyappan, “Complementary Vacuum Field Emission Transistor,” IEEE Trans. on Electron Devices, 68 (2021). DOI: 10.1109/TED.2021.3106868
• Ranajoy Bhattacharya, Marco Turchetti, P Donald Keathley, Karl K Berggren, Jim Browning, “Long term field emission current stability characterization of planar field emitter devices,” Journal of Vacuum Science & Technology B 39, 053201 (2021). https://doi.org/10.1116/6.0001182
• KA Cornell, A White, A Croteau, J Carlson, Z Kennedy, D Miller, M Provost, Spencer Goering, Don Plumlee, Jim Browning, “Fabrication and Performance of a Multidischarge Cold-Atmospheric Pressure Plasma Array,” IEEE Tran. Plasma Sci., Vol. 49, pp. 1388-1395 (2021). https://doi.org/10.1109/TPS.2021.3064993
• Andong Yue, Marcus Pearlman, Mike Worthington, John Cipolla, Jim Browning, “Particle-in-cell simulation of an industrial magnetron with electron population analysis,” JVST:B, Vol. 39 pp. 022201 (2021). https://doi.org/10.1116/6.0000809
• Ranajoy Bhattacharya, Nedeljko Karaulac, Winston Chern, Akintunde Ibitayo Akinwande, Jim Browning, “Temperature effects on gated silicon field emission array performance,” JVST:B, Vol. 39 pp. 023201 (2021). https://doi.org/10.1116/6.0000753
• Ranajoy Bhattacharya, Adam M Darr, Allen L Garner, Jim Browning, “Analysis of Injected Electron Beam Propagation in a Planar Crossed-Field Gap,” Applied Sciences, Vol. 11, pp.2450 (2021). https://doi.org/10.3390/app11062540
• D. Black, R. Harper, P. Ward, J. Davlin, O. Bentancourt, D. Plumlee, and J. Browning, “Cathode Support Structure for Use in a Magnetron Oscillator Experiment,” International Journal of Applied Ceramic Technology, pp. 1–14 (2020). https://doi.org/10.1111/ ijac.13581
• Julia Thom Oxford, Ken A Cornell, Jared J Romero, Diane B Smith, Tracy L Yarnell, Rhiannon M Wood, Cheryl L Jorcyk, Trevor J Lujan, Allan R Albig, Kristen A Mitchell, Owen M McDougal, Daniel Fologea, David Estrada, Juliette K Tinker, Rajesh Nagarajan, Don L Warner, Troy T Rohn, Jim Browning, Richard S Beard, Lisa R Warner, Brad E Morrison, Clare K Fitzpatrick, Gunes Uzer, Laura Bond, Stephanie M Frahs, Cynthia Keller-Peck, Xinzhu Pu, Luke G Woodbury, Matthew W Turner, “Center of Biomedical Research Excellence in Matrix Biology: Building Research Infrastructure, Supporting Young Researchers, and Fostering Collaboration,” International Journal of Molecular Sciences, Vol 21, pp 2141 (2020). doi.org/10.3390/ijms21062141
• Kenneth A Cornell, Kate Benfield, Tiffany Berntsen, Jenna Clingerman, Adam Croteau, Spencer Goering, Daniel Moyer, Mariah Provost, Amanda White, Don Plumlee, Julia T Oxford, Jim Browning, “A Cold Atmospheric Pressure Plasma
  Discharge Device Exerts Antimicrobial Effects,” International Journal of Latest Trends in Engineering & Technology: IJLTET, Vol. 15, PP. 36-41 (2020).
• Arvin Farid, Atena Najafi, Jim Browning, Elisa Barney Smith, “Effects of Air Injection Pressure on Airflow Pattern of Air Sparging,” Environmental Geotechnics, (2019). https://doi.org/10.1680/jenge.18.00096
• Marcus Pearlman and Jim Browning, “Simulation of a Time-Varying Distributed Cathode in a Linear Format Crossed-Field Amplifier,” IEEE Trans. Plasma Science, Vol 47, pp. 3960-3966 (2019). DOI:10.1109/TPS.2019.2924376
• Farid, A., Najafi, A., Browning, J., & Barney Smith, E. (2018). Electromagnetic
  Waves’ Effect on Airflow during Air Sparging, Elsevier Journal of Contaminant Hydrology, Vol. 220, PP. 49-58(2018). DOI: https://doi.org/10.1016/j.jconhyd.2018.11.004
• M. Pearlman and J. Browning, “Simulation of a Distributed Cathode in a Linear Format Crossed-Field Amplifier,” IEEE Trans. Plasma Science, Vol 46, pp.2479-2504 (2018). DOI: https://doi.org/10.1109/TPS.2018.2844732
• S Fernandez-Gutierrez, J Browning, MC Lin, DN Smithe, J Watrous, “Dynamic
  phase-control of a rising sun magnetron using modulated and continuous current,” J. Appl. Phys., Vol. 119, 044501 (2016).
• S. Azad, A. Farid, and J. Browning, “Effect of electromagnetic stimulation on hydraulic conductivity,” Environmental Geotechnics 2(4): 211–223, (2015). http://dx.doi.org/10.1680/envgeo.13.00027
• S. Fernandez-Gutierrez, J. Browning, M.C. Lin, D. Smithe, and J. Watrous,
  “Phase-Control of a rising sun magnetron using a modulated, addressable
  current source,” JVST:B, Vol. 33, 031203-1 (2015).
• Sulmer A Fernandez-Gutierrez, Jim Browning, David Smithe, Ming-Chieh Lin,
  Jack Watrous, “Simulation of a rising sun magnetron employing a faceted cathode with a continuous current source,” JVST:B, Vol. 32, pp. 061205 (2014).
• J Browning, S Fernandez-Gutierrez, MC Lin, DN Smithe, J Watrous, “Phase
  control and fast start-up of a magnetron using modulation of an addressable
  faceted cathode,” Appl. Phys. Lett., Vol. 104, No. 23, p. 233507, June (2014).
• Arvin Farid, Mahsa Azad, Jim Browning, Elisa Barney Smith, “Electromagnetically Induced Transport for Soil/Groundwater Remediation,” Journal of Geotechnical and Geoenvironmental Engineering, Vol. 141, pp. 04014115 (2014).
• T. Rowe, M. Pearlman, and J. Browning, “Simulation of Electron Hop Funnels
  Using Version 9.2 of Lorentz-2E,” IEEE Transactions on Plasma Science, Vol. 42, No. 1, pp. 84-90, Jan. (2014).
• M. Pearlman, T. Rowe, and J. Browning, “Simulation of Electron Hop Funnel
  Hysteresis,” IEEE Transactions on Plasma Science, Vol. 41, No. 8, pp. 2291-2298, Aug. (2013).
• T. Rowe, M. Pearlman, and J. Browning, “Hysteresis in experimental I-V curves of electron hop funnels,” Journal of Vacuum Science and Technology: B, Vol. 31, No. 4, July (2013).
• Azad, M., Sangrey, H. D. O., Farid, A., Browning, J., and Barney Smith, E.
  “Electromagnetic Stimulation of Two-Phase Transport in Water for Geoenvironmental Applications,” ASTM Geotechnical Testing Journal, Vol. 36, No. 1, pp. 97-106, (2013).
• Jesse Taff, Mallory Yates, Carl Lee, Sonya Shawver, Jim Browning, and Don Plumlee, “Fabrication of an Inductively Coupled Plasma Antenna in LTCC,” International Journal of Applied Ceramic Technology. DOI: 10.1111/j.1744-7402.2011.02743.x
• Jim Browning, Carl Lee, Don Plumlee, Sonya Shawver, Sin Ming Loo, Mallory Yates, Matt McCrink, and Jesse Taff, “A miniature inductively coupled plasma source for ion thrusters,” IEEE Trans. on Plasma Science, Vol. 39, No. 11, pp. 3187-3195, Nov. (2011).
• J. Browning and J. Watrous, “A faceted magnetron concept using field emission cathodes,” J. Vacuum Science and Technology B, Vol. 29, March/April (2011).
• C. Lester, J. Browning, and L. Matthews, “Electron hop funnel measurements and comparison with the Lorentz-2E simulation”, IEEE Trans. on Plasma Sci., Vol. 39, No. 1, pp. 555-561, Jan. (2011).
• S. Meassick, Z. Xia, C. Chan, and J. Browning, “Investigation of the Operating Modes of Gated Vacuum Field Emitter Arrays to Reduce Failure Rates,” J. Vac. Sci. Tech. B, 12, pp. 710 (1994).
• S. Qin, C. Chan, J. Browning, and S. Meassick, “Charge Transfer cross-section of He+ in collisional helium plasma using PIII techniques,” J. of App. Phys., 74, pp. 1548 (1993).
• N.E. McGruer, J. Browning, S. Meassick, M. Gilmore, W.J. Bintz, and C. Chan, “Ion-Spacer-Charge Initiation of Gated Field Emitter Failure,” J. Vac. Sci. Tech. B. pp. 11 (1993).
• J. Browning, N. McGruer, S. Meassick, C. Chan, W. Bintz, and M. Gilmore, “Gated Field Emitter Failures: Experiment and Theory,” IEEE Trans. On Plasma Science, 20, pp. 499-506 (1992).
• J. Browning, C. Chan, J. Ye, G.E. Dombrowski, and T.E. Ruden, “Electron Plasma and Wave Measurements in a Crossed-field Amplifier and Comparison with a Numerical Simulation,” IEEE Trans. On Electron Devices, 39, pp. 2401-2407 (1992).
• J. Browning, N.E. McGruer, W. Bintz, and M. Gilmore, “Experimental Observations of Gated Field Emitter Failures,” Electron Dev. Letters, 13, pp. 167 (1992).
• J. Browning, C. Chan, J.Ye, G.E. Dombrowski, and T.E. Ruden, “ In Situ Measurements and Numerical Simulation of Wave-electron Interactions in a Crossed-field Amplifier,” Appl. Phys. Lett., 59, pp. 3384 (1991).
• S. Qin, C. Chan, N. McGruer, J. Browning, and K. Warner, “The Behavior of a High-Voltage Pulse in a Microwave Multipolar Bucket Plasma,” IEEE Trans. on Plasma Science, 19, pp. 1272 (1991).
• J. Browning, C. Chan, J. Ye, and T. Ruden, “A Low-Frequency Crossed-field Amplifier for Experimental Investigations of Electron-Radio Frequency Wave Interactions,” IEEE Trans. On Plasma Science, 19, pp.598 (1991).
• J. Browning, N. Hershkowitz, T. Intrator, R. Majeski, and S. Meassick, “Radio-
  Frequency Wave Interchange Stability Experiments Below the Ion Cyclotron Frequency,” Phys. Fluids B, 1, pp. 1692 (1989).
• S. Meassick, T. Intrator, N. Hershkowitz, J. Browning, and R. Majeski, “Measurements of the Ponderomotive Force Including Sideband Mode Coupling Effects and Damping Rates,” Phys. of Fluids B, 1, pp. 1049 (1989).
• T. Intrator, S. Meassick, J. Browning, R. Majeski, J. Ferron, and N. Hershkowitz, “Measurements of Electromagnetic Waves in Phaedrus: Benchmark of ANTENA Wavefield Calculations,” Nuc. Fusion, 29, pp. 377 (1989).
• T. Intrator, S. Meassick, J. Browning, R. Majeski, and N. Hershkowitz, “The Bispectrum and Three-Wave Coupling Between Fast Magnetosonic Waves and Interchange Modes,” Phys. Fluids B, 1, pp. 271 (1989).
• Y. Yaska, R. Majeski, J. Browning, N. Hershkowitz, and D. Roberts, “ICRF Heating with Mode Control Provided by a Rotating Field Antenna,” Nuc. Fusion, 28, pp. 1765 (1988).
• J. Browning, R. Majeski, T. Intrator, N. Hershkowitz, and S. Meassick, “Interchange Stabilization of a Mirror Plasma Using radio-Frequency Waves Below the Ion Cyclotron Frequency,” Phys. Fluids, 31, pp. 714 (1988).
• R. Majeski, J. Browning, S. Meassick, N. Hershkowitz, T. Intrator, and J.R. Ferron, “Effect of Variable Eigenmode Excitation on rf Stabilization of a Mirror Plasma,” Phys. Rev. Lett., 59, pp. 206 (1987).

Selected Patents

• Method and Apparatus for Testing Emissive Cathodes, US#5,751,262, issued May 1998, Jim Browning, Charles Watkins, and David Cathey
• Flat Panel Display Drive Circuit with Switched Drive Current, US#5387844, issued February 1995, Jim Browning
• Identifying and Disabling Shorted Electrodes in Field Emission Display, US36034880, issued March 2000, Jim Browning, John Lee, Tyler Lowrey.
• Method and Apparatus for Improved Gray Scale Control in Field Emission Displays, US#5952987, issued September 1999, Jim Browning, Dean Wilkinson.
• Fabrication of Field Emission Array with Vacuum Cathodic Arc Deposition, US#6027619, issued February 2000, David Cathey, Jim Browning, Zhong-Yi Xia.
• Method for Cleaning Phosphor Screens for Use with Field Emission Displays, US#6409564, issued June 2002, Jim Browning, Zhong-Yi Xia, David Cathey, Surjit Chadha.