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Jacob Coty Stephens
Jacob Coty Stephens
Texas Tech University Center for Pulsed Power and Power Electronics
Verified email at ttu.edu
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Cited by
Cited by
Year
Data needs for modeling low-temperature non-equilibrium plasmas: the LXCat project, history, perspectives and a tutorial
E Carbone, W Graef, G Hagelaar, D Boer, MM Hopkins, JC Stephens, ...
Atoms 9 (1), 16, 2021
1122021
A multi-term Boltzmann equation benchmark of electron-argon cross-sections for use in low temperature plasma models
J Stephens
Journal of Physics D: Applied Physics 51 (12), 125203, 2018
472018
Laser-driven semiconductor switch for generating nanosecond pulses from a megawatt gyrotron
JF Picard, SC Schaub, G Rosenzweig, JC Stephens, MA Shapiro, ...
Applied Physics Letters 114 (16), 2019
422019
Discrete photon implementation for plasma simulations
A Fierro, J Stephens, S Beeson, J Dickens, A Neuber
Physics of Plasmas 23 (1), 2016
322016
Semiempirical wide-range conductivity model with exploding wire verification
J Stephens, J Dickens, A Neuber
Physical Review E 89 (5), 053102, 2014
282014
Photoionization capable, extreme and vacuum ultraviolet emission in developing low temperature plasmas in air
J Stephens, A Fierro, S Beeson, G Laity, D Trienekens, RP Joshi, ...
Plasma Sources Science and Technology 25 (2), 025024, 2016
272016
Practical considerations for modeling streamer discharges in air with radiation transport
J Stephens, M Abide, A Fierro, A Neuber
Plasma Sources Science and Technology 27 (7), 075007, 2018
242018
Experimental and theoretical evaluation of surface coated exploding wires
J Stephens, A Neuber, M Kristiansen
Physics of Plasmas 19 (3), 2012
242012
Exploding-wire experiments and theory for metal conductivity evaluation in the sub-eV regime
J Stephens, A Neuber
Physical Review E 86 (6), 066409, 2012
222012
Charged electret deposition for the manipulation of high power microwave flashover delay times
J Stephens, S Beeson, J Dickens, A Neuber
Physics of Plasmas 19 (11), 2012
222012
Optimizing drive parameters of a nanosecond, repetitively pulsed microdischarge high power 121.6 nm source
J Stephens, A Fierro, D Trienekens, J Dickens, A Neuber
Plasma Sources Science and Technology 24 (1), 015013, 2014
212014
Atmospheric plasma VUV photon emission
F Liu, L Nie, X Lu, J Stephens, K Ostrikov
Plasma Sources Science and Technology 29 (6), 065001, 2020
172020
High power long pulse microwave generation from a metamaterial structure with reverse symmetry
X Lu, JC Stephens, I Mastovsky, MA Shapiro, RJ Temkin
Physics of Plasmas 25 (2), 2018
162018
Microwave-enhanced methane cracking for clean hydrogen production in shale rocks
K Yan, X Jie, X Li, J Horita, J Stephens, J Hu, Q Yuan
International Journal of Hydrogen Energy 48 (41), 15421-15432, 2023
152023
Theory of linear and nonlinear gain in a gyroamplifier using a confocal waveguide
AV Soane, MA Shapiro, JC Stephens, RJ Temkin
IEEE Transactions on Plasma Science 45 (9), 2438-2449, 2017
152017
Nanosecond, repetitively pulsed microdischarge vacuum ultraviolet source
J Stephens, A Fierro, B Walls, J Dickens, A Neuber
Applied Physics Letters 104 (7), 2014
152014
The impact of wire environment on electro-explosive fuse performance
J Stephens, W Mischke, AA Neuber
IEEE Transactions on Plasma Science 40 (10), 2517-2522, 2012
142012
Subterahertz photonic crystal klystron amplifier
JC Stephens, G Rosenzweig, MA Shapiro, RJ Temkin, JC Tucek, ...
Physical review letters 123 (24), 244801, 2019
132019
A multi-term, multi-harmonic Boltzmann equation model for kinetic behavior in intense microwave and terahertz excited low temperature plasmas
JC Stephens
Physics of Plasmas 25 (10), 2018
112018
A continuum approach for multipactor using Vlasov–Poisson analysis
L Silvestre, ZC Shaw, T Sugai, J Stephens, JJ Mankowski, J Dickens, ...
Journal of Physics D: Applied Physics 55 (4), 045202, 2021
102021
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