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Ionization waves in shielded capillary discharges
M. Mond
Department of Mechanical Engineering
Research output
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Contribution to journal
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Conference article
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peer-review
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Dive into the research topics of 'Ionization waves in shielded capillary discharges'. Together they form a unique fingerprint.
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Keyphrases
Capillary Discharge
100%
Ionization Wave
100%
Numerical Solution
50%
Physical Variables
50%
Capillary
50%
Waveguide
50%
Virtual Cathode
50%
Electric Potential
25%
Electric Field (E-field)
25%
Radial Profile
25%
Low Pressure
25%
Initial Geometry
25%
Low Velocity
25%
Propagation Velocity
25%
Initial Pressure
25%
Momentum Equation
25%
Electron Impact
25%
Drift Velocity
25%
Atomic Concentration
25%
Quasi-one-dimensional Equations
25%
Electrical Breakdown
25%
Discharge Tube
25%
One-dimensional Equations
25%
Quasi-one-dimensional Model
25%
Ionization Coefficient
25%
Engineering
One Dimensional
100%
Numerical Solution
66%
Waveguide
66%
Physical Variable
66%
Cross Section
33%
Boundary Condition
33%
Function of Time
33%
Early Stage
33%
Assuming
33%
Dimensional Model
33%
Electric Field
33%
Measured Value
33%
Drift Velocity
33%
Electric Potential
33%
Propagation Velocity
33%
Momentum Equation
33%
Initial Pressure
33%
Axial Coordinate
33%
Physics
Waveguide
100%
Numerical Solution
100%
Boundary Condition
50%
Electric Potential
50%
Electric Fields
50%
Propagation Velocity
50%
Electrical Breakdown
50%
Gas Discharge Tubes
50%
Earth and Planetary Sciences
Waveguide
100%
Boundary Condition
50%
Electric Potential
50%
Electric Field
50%
Electrical Fault
50%
Gas Discharge Tubes
50%
Electron Impact
50%
Propagation Velocity
50%