Li et al., 2023 - Google Patents
Effect of photoionisation on initial discharge in air under nanosecond pulse voltageLi et al., 2023
View PDF- Document ID
- 6640702128362904722
- Author
- Li Y
- Fu Y
- Liu Z
- Li H
- Wang P
- Luo H
- Zou X
- Wang X
- Publication year
- Publication venue
- High Voltage
External Links
Snippet
Abstract Effects of photoionisation on the development and electron runaway of the initial discharge in atmospheric air under nanosecond pulse voltage were studied via two‐ dimensional particle‐in‐cell/Monte Carlo collision simulations. It was found that …
Similar Documents
Publication | Publication Date | Title |
---|---|---|
Vranic et al. | Multi-GeV electron-positron beam generation from laser-electron scattering | |
Starikovskiy et al. | How pulse polarity and photoionization control streamer discharge development in long air gaps | |
Murakami et al. | Generation of megatesla magnetic fields by intense-laser-driven microtube implosions | |
Babich et al. | A model for electric field enhancement in lightning leader tips to levels allowing X‐ray and γ ray emissions | |
Samsonov et al. | Laser-driven vacuum breakdown waves | |
Zhang et al. | Positive and negative streamer propagation in volume dielectric barrier discharges with planar and porous electrodes | |
Li et al. | Effect of photoionisation on initial discharge in air under nanosecond pulse voltage | |
Starikovskiy et al. | Simulation of decelerating streamers in inhomogeneous atmosphere with implications for runaway electron generation | |
Rose et al. | Towards a fully kinetic 3D electromagnetic particle-in-cell model of streamer formation and dynamics in high-pressure electronegative gases | |
Yang et al. | Three electron beams from a laser-plasma wakefield accelerator and the energy apportioning question | |
Chen et al. | Experimental evidence for the enhanced and reduced stopping regimes for protons propagating through hot plasmas | |
Kemp et al. | Generating keV ion distributions for nuclear reactions at near solid-density using intense short-pulse lasers | |
Higginson et al. | Laboratory investigation of particle acceleration and magnetic field compression in collisionless colliding fast plasma flows | |
Kozhevnikov et al. | Physical kinetics of electrons in a high-voltage pulsed high-pressure discharge with cylindrical geometry | |
Li et al. | Angle-resolved stochastic photon emission in the quantum radiation-dominated regime | |
Babaeva et al. | Formation of wide negative streamers in air and helium: the role of fast electrons | |
Peng et al. | Streamer dynamics and charge self‐erasing of two counter‐propagating plasmas in repetitively pulsed surface dielectric barrier discharge | |
Li et al. | Energetic electrons and their contribution to the breakdown of a point-plane air gap with a positive nanosecond pulse | |
Eckert et al. | 1D PIC-DSMC analysis of a high-pressure nanosecond pulse discharge breakdown in helium | |
Kucharczyk et al. | Generation of ultrashort ion pulses in the keV range: Numerical simulations | |
Starikovskaia et al. | Numerical modelling of the electron energy distribution function in the electric field of a nanosecond pulsed discharge | |
Djermoune et al. | Two dimensional modelling of a streamer induced discharge | |
Massimo et al. | Efficient cylindrical envelope modeling for laser wakefield acceleration | |
Roberds et al. | Modeling DC electrical breakdown using a truncated emission spectrum for trapped radiation | |
Shahsavarian et al. | An inventive multi-scale, multiphysics modelling approach and comparative analysis of distinctive features of planar ionization waves in air: II. Positive streamers |