gas-discharge plasma 中文意思是什麼
gas-discharge plasma
解釋
氣體放電等離子體-
Study on discharge gas used in color plasma display panel
彩色等離子體顯示器放電氣體的研究 -
During ion source operating, alternating axial magnetic field and azimuthal electric field in discharge tube ionize hydrogen gas purified by hot palladium pipe, and form plasma, hi fifties year, research reports studied on rf ion source are numerous however most of them are concerned about application, and research reports relevant to discharge theory or experiment model are unfrequent
離子源工作時,放電空間交變的軸向磁場和渦漩電場激發放電管中經鈀管純化后通入的氫氣電離,形成等離子體。 50多年來,關于高頻離子源的研究報告很多,但是,這些研究主要都集中在應用研究方面,有關高頻無極環形放電離子源的理論與實驗模型研究不是很多。 -
1 bulb : - the xenon gas and mercury metal halide salts existing inside the light emitting tube causes the molybdenum electrodes on both sides to plasma discharge and create energy, which inturn produces light
Hid系統部件hid system components 1 bulb : -光發射管內的氙氣和水銀金屬鹵化鹽激發雙方的鉬電極等離子放電並釋放能量,從而實現發光 -
The result shows that argon gas can not only promote the excitation of plasma at low pressure, but also improve discharge state, increase the density and activation of reaction radical and improve the quality of diamond films. on the other side, argon can cool the plasma and maintain low temperature of substrate due to its big ionization section and high collision probability with gas molecules
結果表明,氣體系統中引入氬氣一方面不僅有利於維持低壓放電,而且改善放電狀態,提高反應活性基濃度和活性,提高低溫沉積金剛石膜的質量;另一方面,由於其大的電離截面使其和電子碰撞的幾率大大提高,對等離子體進行冷卻,有利於基片溫度的降低。 -
In the eme model, the electron energy balance equation is taken into account and the transport coefficients are assumed to be the functions of the electron mean energy. in this paper, a software is programmed to simulate the discharge process of plasma display cell of coplanar - electrode type, the matrix - electrode type and the novel shadow - mask pdp according to the gas discharge mechanism and fluid simulation theory. the simulation results show that both lfa model and eme model can be used to investigate the discharge characteristics of the cell, but the eme model is preferred for its better coincidence with theories and experiments
在本文中,分別使用本地場近似的lfa ( localfieldapproximation )流體模型和假設碰撞反應系數、傳輸系數和電子的平均能量相關的eme ( electronmeanenergy )流體模型對pdp放電過程進行模擬,比較分析模擬結果,得出eme模型和lfa模型對放電的繁流、起輝放電、熄滅等過程的描述的基本趨向是大致相同的,而從模擬工作電壓與實際電壓的接近程度和放電效率角度比較, eme模型的模擬結果跟理論和實驗結果更為相符。 -
Plasma nitriding is an application way to metal surface and heating treatment based on the formed plasma by glow discharge. nitriding is a way of heating treatment, namely, metal accessory is put into activate nitrogen and the gas of low light pressure is ionized into energy electrons, high energy ions and high energy neutral atoms by the action of the electric field under a definite temperature and the time of the heat preservation
等離子滲氮是利用輝光放電形成等離子體在金屬表面,熱處理方面的應用,滲氮是強化金屬表面的一種熱處理方法,是將金屬零件置於活性氮的介質中,在一定溫度和保溫時間下,低光壓氣體在電場作用下使之電離產生能電子、高能離子和高能中性原子。 -
Numerical analysis of influence of penning gas composition on discharge characteristics in ac plasma display panel
潘寧氣體組成對交流等離子體顯示器放電特性影響的數值分析 -
So we applied low temperature techniques to manufacture the sense film of qcm sensors. at low temperature and low pressure, with n - butylamine as the carbon source material, and with dry hydrogen as the carrying gas, we applied r. f. glow discharge plasma to preparation the working film for the qcm sensors
在「實驗與分析」一章中較為詳細地闡述了採用等離子體化學氣相淀積的方法,以正丁胺作為碳源物質,通過射頻輝光放電在低溫低壓條件下制得了正丁胺等離子體淀積膜。 -
Emission spectroscopy methodology for low temperature discharge plasma of low pressure gas low pressure gas discharge has been frequently utilized to generate plasma in laboratory and application. this kind of discharge is capable of providing various kinds of plasma for any requirements and realizing control of plasma parameters
本文概述了雙原子分子光譜理論,指出了雙原子分子光譜對等離子體光譜診斷學的重要性,總結了應用雙原子分子發射光譜和原子發射光譜進行等離子體診斷的原理和實現方法,給出了幾個常用的雙原子分子的光譜數據。 -
Gas discharge plasma
氣體放電等離子體 -
Structure design of catalysts gas for discharge plasma based on electric field analysis
放電等離子體用催化劑結構設計中的電場分析
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