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About
This software is dedicated for treatment of experimental measurements of plasma data.
In case of any questions please contact Dr.Yifei ZHU.

Email: Yifei.zhu.plasma@gmail.com
About
PASSKEy - 02/2021

A two-dimensional drift-diffusion fluid equation solver for low temperature plasmas code generator

Created by Yifei ZHU - yifei.zhu.plasma@gmail.com

Improved by teams from:
Atelier des Plasmas Co, Ltd., Hefei, China
Xi\'an Jiaotong University, Xi\'an, China
Ecole Polytechnique, Paris, France

Permission to use PASSKEy is granted, provided that proper reference is made in any publications making use of the
code generated with this software. For specific usage and cooperations please contact the author.

CPCC Parser
PASSKEy
PASSKEy 1.0 (PArallel Streamer Solver with KinEtics 1.0)
二维并行流注等离子体耦合求解器 1.0。
This code is developed for modeling of low temperature plasmas based on fluid method. The code is featured for its ability in parallelization and multiphysics coupling.
PlasmAbel
PlasmAbel (Easy Abel Transformation for Plasma Optical Measurements)
PlasmAbel软件用于对实验或计算数据进行Abel或反Abel变换。由工坊团队完成开发。
This software is dedicated for treatment of experimental measurements of plasma data.
In case of any questions please contact the official mailbox of Gongfang team.
SDBDesigner
SDBDesigner (Surface Dielectric B arrier Discharge Designer)
SDBDesigner是基于Python开发的表面介质阻挡放电(有时也叫做表面电离波)性能参数计算工具箱。该工具箱具有以下功能:(1)计算指定情况下表面介质阻挡放电的等离子体与流动特性;(2)自动参数化计算放电与流动特性;(3)根据表面介质阻挡放电目标参数反向设计表面介质阻挡放电的几何、电压、材料特性参数。该软件的算法源于Victor Soloviev教授和Vladimir Kristov教授的前期理论工作 [1, 2]。 本软件将该算法进行了发展与修正,完成实验验证后由工坊完成整体开发。
SDBDesigner is a software developed in Python, devoted to calculate basic parameters of surface dielectric barrier discharges (or the so–called surface ionization waves). The functionalities of SDBDesigner include: (1) Calculate the discharge and flow properties at certain condition; (2) Calculate and draw Parametrically and automatically the discharge and fluid properties; (3) Search the designing parameters of SDBD according to the target discharge and fluid properties. The algorithms in this software is mainly based on the theoretical work of Prof. Victor Soloviev and Prof. Vladimir Kristov [1, 2]. The theories have been extended and validated in nanosecond pulsed discharges later.

[1] V. R. Soloviev, “Analytical estimation of the thrust generated by a surface dielectric barrier discharge,” Journal of Physics D: Applied Physics, vol. 45, no. 2, 2012.
[2] Y. Zhu, Y. Wu, “The secondary ionization wave and characteristic map of surface discharge plasma in a wide time scale,”. New J. Phys. 22, 103060 (2020).
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PHOTOPiC
PHOTOPiC (PHOTOionization Parameter Calculator)
PHOTOPiC软件依据光谱强度、光电离效率和吸收系数为等离子体数值模型提供光电离函数和亥姆霍兹方程拟合系数,目前支持计算任意配比氮气、氧气、二氧化碳和水蒸气中的光电离参数。软件算法源于文献[1],介绍与验证源于文献[2],由工坊完成开发。
PHOTOPiC is a software for theoretically calculating the photoionization functions as well as fitting parameters for plasma modeling. The code integrates the product of spectrum emission intensity, the photo-ionization yield and the absorption coefficient to calculate the photo-ionization function of each gas and the total photo-ionization function of the mixture. The coefficients of Helmholtz photo-ionization model is obtained by fitting the total photo-ionization function. A database consisting N2, O2, CO2 and H2O molecules are included and can be modified by the users. The algrothm is based on [1] and the introduction and validation is presented in [2].

[1] S.Pancheshnyi,"Photoionization produced by low-current discharges in O2,air,N2 and CO2," Plasma Sources Science and Technology, vol.24,no.1,p.015023,2014.
[2] Y. Zhu, Y. Wu, J. Li, “PHOTOPiC: Calculate photo-ionization functions and model coefficients for gas discharge simulations,” preprint, https://arxiv.org/abs/2005.10021

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