conduction electrons 中文意思是什麼
-
The conduction electrons associated with the iodine can move along the chains as if they were long thin wires.
碘中所含的傳導電子能夠沿著鏈運動,就好象這些鏈是長的細導線一樣。 -
The scaling relations of conduction time and opening time with the plasma density, which are computed by a series of simulation results, show that, influence of plasma density on conduction time is greater than opening time. influence of cathode em itted electrons on conduction process, which is found to be more important when initial plasma density is low, is dependent of the initial plasma density. the penetration of a magnetic field into cylindrical middle - density ( 1013 / cm3 ) c + + and h + plasma with uniform and parabolic density profile, are examined with aid of pic simulation
模擬得到的低密度( 10 ~ ( 11 ) cm ~ 3 10 ~ ( 13 ) cm ~ 3 )條件下導通和斷路時間與等離子體密度的定標關系曲線顯示:密度對于導通時間的影響遠大於對于斷路時間的影響;陰極電子對于peos導通過程的影響程度與初始等離子體密度有關,初始密度越大,陰極電子的影響就越小。 -
In simulations, all important phenomena, such as non - neutral sheath widening near cathode, cathode electron emitting, current channel migrating to the load side of the plasma, ion accelerating toward cathode and magnetic insulation of cathode emitting electrons etc, have been observed and depict the internal physics of this device. also presented is the influence of cathode emitted electrons on phenomena in the conduction processes of pegs. the simulation results show, without cathode emitted electrons, rapid magnetic field penetration takes place only in region near the cathode, with cathode emitted electrons, magnetic field penetration takes place in all plasma region
診斷發現了陰極表面非中性鞘層的形成、陰極電子發射、電流通道的漂移、等離子體離子加速以及陰極電子磁隔離等物理現象,揭示了這一斷路器件的物理機制;分析了陰極電子對peos導通過程中的物理現象的影響,模擬結果顯示:忽略陰極電子作用,磁場滲透現象主要出現在陰極表面區域,考慮陰極電子作用,磁場滲透現象出現在整個等離子體區域。 -
The highest - energy band containing electrons is called the valence band, and the next higher one is the conduction band
填有電子而能量最高的能帶稱為價帶,相鄰的更高能帶稱為導帶。 -
Conduction of electricity in solids consists of the drift of electrons that have been temporarily detached from the parent atoms
固體中電的傳導是暫時離開母原子的電子的漂移所致。 -
The light - induced - electrons were mainly on conduction band, voo / vo and vo / v energy level. the electrons under 0 _ ( 2 ) / 0 _ ( 2 ) were not useful to photocatalysis
和v口v能級之上,位於吸附態02 / 02 『能級以下的光生電子對光催化沒有貢獻。 -
The defects energy levels intensity became smaller, the electrons on the conduction band became more and photocatalysis became better with the heat treatment temperature, the similar conclusion was drawn from experiments
隨著熱處理溫度的升高,試樣的缺陷能級密度減小,導帶上光生電子的數目相應增大,光催化效率提高,實驗中也得出了同樣的結論。 -
Uv - vis and pl spectra were used to study the energy band structure and the holding states of light - induced - electrons of tio _ ( 2 ) powder and films prepared by magnetron sputtering. the energy band structure and light - induce - electrons holding states were studied by pl spectra, conduction band and impurity energy levels were emerged together and formed a new continuum band
導帶和雜質帶連到一起形成了連續帶?雜質能帶,光生電子並不是位於導帶之上,武漢理工大學碩士學位論文而是占據了2 . 5一3 . sev的連續帶上,主要集中於2 . 65一3 . oev之間。 -
So the conductive behavior in ac field was equivalent with the parallel connection of a resistor and a capacitor, the nonlinearity of v - i characteristics originate from a combination of the implication of the nonlinear contribution of tunnel conduction between graphite particles and the production of additional conducting pathways under sufficiently strong local fields, which is the function of the gap between graphite particles and has a relation with the transition ability of electrons
導電瀝青混凝土的導電行為則可用隧道效應進行分析,交變電場中的導電行為可等效為電阻r和電容c並聯,非線性v - i特性產生於隧道效應時粒子間的非線性導電和高電場時誘發額外的導電通路,二者是粒子間隙的函數,與電子躍遷能力有關。
分享友人