Absorption measurements on a low-pressure inductively coupled argon/mercury discharge for lighting purposes: 2. Electron density and temperature

Jonkers J.; van der Mullen J.A.M.; van Dijk J.

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Absorption measurements on a low-pressure inductively coupled argon/mercury discharge for lighting purposes: 2. Electron density and temperature

机译：用于照明目的的低压感应耦合氩/汞放电的吸收测量：2.电子密度和温度

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Typical values for the electron density and temperature in the Philips QL lamp are obtained from the radially resolved measurements of the gas temperature profile and the density of the lowest argon metastable state, as presented in a previous paper (Jonkers J et al 1997 J. Phys. D: Appl. Phys. 30 1928-33). The results agree very well with the electron density and temperature as found by solving the electron particle and energy balance equations. For increasing argon filling pressure a lower electron temperature and a higher electron density are found, which are due to an increased residence time of the charged particles. It is shown that in the QL lamp serious depletion of mercury occurs.

机译：飞利浦QL灯中电子密度和温度的典型值是通过径向解析得到的气体温度曲线和最低氩亚稳态密度获得的，如先前的论文所述（Jonkers J等，1997 J. Phys D：Appl.Phys.30 1928-33）。结果与解决电子粒子和能量平衡方程式发现的电子密度和温度非常吻合。为了增加氩填充压力，发现较低的电子温度和较高的电子密度，这是由于带电粒子的停留时间增加所致。结果表明，在QL灯中会严重消耗汞。

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《Journal of Physics, D. Applied Physics: A Europhysics Journal》 |1999年第8期|共8页
作者
Jonkers J.; van der Mullen J.A.M.; van Dijk J.;
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正文语种 eng
中图分类应用物理学;
关键词
Metal vapor lamps; Carrier concentration; Electrons; Temperature; Argon; Mercury (metal); Semiconductor diodes; Electron energy levels; Numerical methods; Electron temperature; Diode laser absorption; Energy balance equations; Electron collisions;

机译：金属蒸气灯;载流子浓度;电子;温度;氩气;汞（金属）;半导体二极管;电子能级;数值方法;电子温度;二极管激光吸收;能量平衡方程;电子碰撞;

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1. Absorption measurements on a low-pressure inductively coupled argon/mercury discharge for lighting purposes: 2. Electron density and temperature [J] . Jonkers J., van der Mullen J.A.M., van Dijk J. Journal of Physics, D. Applied Physics: A Europhysics Journal . 1999,第8期

机译：用于照明目的的低压感应耦合氩/汞放电的吸收测量：2.电子密度和温度
2. ABSORPTION MEASUREMENTS ON A LOW-PRESSURE, INDUCTIVELY COUPLED, ARGON-MERCURY DISCHARGE FOR LIGHTING PURPOSES .1. THE GAS TEMPERATURE AND ARGON METASTABLE STATES DENSITY [J] . Jonkers J., Vandermullen JAM., Bakker M. Journal of Physics, D. Applied Physics: A Europhysics Journal . 1997,第13期

机译：照明目的低压，感应耦合，氩-汞放电的吸收率测量1。气体温度和亚稳态密度
3. Spectroscopic Measurement of the Electron Temperature and theMetastable Densities by Using a Simple Collisional-RadiativeModel in a Low-Pressure Inductively-Coupled Argon Plasma [J] . Young-Kwang LEE, Kwang-Tae HWANG, Min-Hyong LEE, Journal of the Korean Physical Society . 2008,第6期

机译：在低压电感耦合的氩等离子体中使用简单的碰撞 - RadiveModel来测量电子温度和题塑密度的光谱测量
4. Comparison of electron density measurements by using a plasma absorption probe and a double Langmuir probe in inductively coupled plasmas [C] . Jung-Hyung Kim, Sang-Chul Choi, Yong-Hyun Shin, . 2003

机译：在电感耦合等离子体中使用等离子体吸收探针和双Langmuir探针进行电子密度测量的比较
5. Measurements of metastable atom density using energies and densities of energetic “fast” electrons detected in the electron energy distribution function associated with the afterglow plasma produced by a radio frequency inductively coupled plasma helium discharge [D] . Blessington, Jon C. 2007

机译：使用能量和高能“快速”电子的密度测量亚稳态原子密度，电子能量分布函数中检测到与射频感应耦合等离子体氦放电产生的余辉等离子体相关的电子能量分布函数
6. Low-Temperature Growth of Hydrogenated Amorphous Silicon Carbide Solar Cell by Inductively Coupled Plasma Deposition Toward High Conversion Efficiency in Indoor Lighting [O] . Ming-Hsuan Kao, Chang-Hong Shen, Pei-chen Yu, -1

机译：感应耦合等离子体沉积在室内照明中实现高转化效率的低温生长氢化非晶碳化硅太阳能电池
7. Excitation temperature and electron number density distributions experienced by analyte species in an inductively coupled argon plasma [O] . Kalnicky, Dennis James 1976

机译：电感耦合氩等离子体中分析物种类的激发温度和电子数密度分布
8. Spectral Analysis and Metastable Absorption Measurements of High Pressure Capacitively and Inductively Coupled Radio-Frequency Argon-Helium Discharges. [R] . Eshel, B. 2013

机译：高压电容和电感耦合射频氩氦放电的光谱分析和亚稳吸收测量。

Absorption measurements on a low-pressure inductively coupled argon/mercury discharge for lighting purposes: 2. Electron density and temperature

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