Investigation of Discharge Processes in a High-Pressure Pulsed Arc Discharge Environment for Model Verification
Abstract not provided.
Publications
Kinetic Unstructured Finite Element PIC-DSMC Simulation of Ultra-Fast Pin-to-Plane Discharge in Air
Abstract not provided.
Streamer Evolution Near a Dielectric Surface with Variable Permittivity
Abstract not provided.
Simulation of a laser triggered vacuum switch
Abstract not provided.
Kinetic simulation of helium emission spectra compared against experimental results
Abstract not provided.
Fully Resolved 3D Kinetic Simulation of Atmospheric Pressure Streamer Propagation with Discrete Photons
Abstract not provided.
Kinetic simulation of breakdown in gaps with and without dielectric particles
Abstract not provided.
Developing a kinetic approach to radiation transport and its interaction in He/N2 ionization waves
Abstract not provided.
Developing a kinetic approach to radiation transport and its interaction in He/N2 ionization waves
Abstract not provided.
Exploring Current Loss Mechanisms on the Z Accelerator using PIC/DSMC Methods
Abstract not provided.
DEVELOPMENT OF LASER-COLLISION INDUCED FLUORESCENCE FOR ATMOSPHERIC PRESSURE PLASMA GENERATED IN HELIUM ATMOSPHERES
Abstract not provided.
Steamer Formation Near a Dielectric Surface with Variable Quantum Yield
Abstract not provided.
Kinetic simulation of breakdown for gaps with and without dielectric particles
Abstract not provided.
Characteristics of a High-Pressure Pulsed Arc Discharge Environment for Model Verification
Abstract not provided.
Three-dimensional wedge simulation of an ionization wave in nitrogen/helium gas
Abstract not provided.
Ultrafast Laser Diagnostics to Interrogate High Pressure Highly Collisional Plasma Environments
Abstract not provided.
Model for Triggered Vacuum Switches
Abstract not provided.
Radiation transport in kinetic simulations and the influence of photoemission on electron current in self-sustaining discharges
Journal of Physics D: Applied Physics
A kinetic description for electronic excitation of helium for principal quantum number n 4 has been included into a particle-in-cell (PIC) simulation utilizing direct simulation Monte Carlo (DSMC) for electron-neutral interactions. The excited electronic levels radiate state-dependent photons with wavelengths from the extreme ultraviolet (EUV) to visible regimes. Photon wavelengths are chosen according to a Voigt distribution accounting for the natural, pressure, and Doppler broadened linewidths. This method allows for reconstruction of the emission spectrum for a non-thermalized electron energy distribution function (EEDF) and investigation of high energy photon effects on surfaces, specifically photoemission. A parallel plate discharge with a fixed field (i.e. space charge neglected) is used to investigate the effects of including photoemission for a Townsend discharge. When operating at a voltage near the self-sustaining discharge threshold, it is observed that the electron current into the anode is higher when including photoemission from the cathode than without even when accounting for self-absorption from ground state atoms. The photocurrent has been observed to account for as much as 20% of the total current from the cathode under steady-state conditions.
Seed Electron Generation Mechanisms in the Presence of a Dielectric Particle
Abstract not provided.
System for Characterization of the Discharge Process in a High-Pressure Pulsed Arc Discharge
Abstract not provided.
PIC-DSMC simulation of a triggered vacuum switch with a copper/beryllium cathode
Abstract not provided.
PIC/DSMC Simulation of Radiation Transport Dynamics in Helium Gas Discharges
Abstract not provided.
Incorporating Radiation Transport into Particle-Based Plasma Simulations
Abstract not provided.
Development of Kinetic PIC-DSMC Model for Breakdown in the Presence of a Dielectric
Abstract not provided.
Development of PIC-DSMC Model for Laser-Triggered Vacuum Switch
Abstract not provided.
Results 26–50 of 51