Full Three-dimensional Particle-In-Cell Simulation for Phase-matched Ion-based High-order Harmonic Generation in Water-window X-ray
Jan 01 2026 Journal Paper High-Harmonic Generation Particle-in-Cell Simulation Electromagnetic
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Numerical experiment of phase-matched ion-based high-order harmonic generation in the water-window x-ray spectral region via electromagnetic envelope equation
Jun 11 2024 Journal Paper High-Harmonic Generation Numerical Simulation Electromagnetic
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Numerical Simulation of Ion-Based Water-Window High-Harmonic Generation
Jan 25 2024 National Conference High-Harmonic Generation Numerical Simulation Electromagnetic
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Numerical Simulation of Ion-Based Water-Window Harmonic Generation in Laser-Irradiated Gases
Nov 17 2023 International Conference High-Harmonic Generation Numerical Simulation Electromagnetic
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Two Stream Instability Simulation in Plasma Physics
Mar 16 2022 Physics Research Project Python Electromagnetic Plasma Physics Numerical Simulation Particle-in-Cell Simulation
A particle-in-cell (PIC) simulation of two-stream instability in plasma, illustrating how relative drift between species leads to the excitation of plasma waves. Read More
Derivation of Gaussian Beam under 2D space and 3D space
Oct 05 2021 Physics Research Project Python Electromagnetic Derivation
Derived and visualized Gaussian beam propagation in both 2D and 3D space, analyzing beam evolution and spatial characteristics. Read More
Particle-in-Cell Simulation of Phase-Matched High Harmonics Generation in Highly Ionized Plasmas
Jun 11 2021 Physics Research Project Python Electromagnetic Plasma Physics Numerical Simulation Particle-in-Cell Simulation High-Harmonic Generation
Simulated high harmonic generation (HHG) in laser-plasma using PIC to study phase matching and optimize laser/gas parameters for efficient short-wavelength light sources. Read More
One-Dimensional Simulation with the FDTD Method
Oct 20 2020 Physics Research Project Python Electromagnetic Numerical Simulation
Simulated electromagnetic wave propagation using FDTD in vacuum, dielectric, and lossy dielectric media with hard, soft, and absorbing boundary conditions. Read More