conductivity mobility 中文意思是什麼

conductivity mobility 解釋
導電遷移率
  • conductivity : n. 【物理學】傳導性[力],傳導率;導電率[性,系數]。
  • mobility : n 1 可動性,活動性,能動性。2 靈活性,可變動性。3 【物理學】動性,遷移率;【化學】淌度;【軍事】...
  1. An increase of the electric conductivity at about the same depth also indicates a greater mobility of the matter.

    在相同深度電導性增加,也說明物質活動性較大。
  2. Keywords : sedimentation velocity and potential, electrophoretic mobility, electric conductivity, charged composite particle, charged porous particle, arbitrary double - layer thickne

    關鍵詞:沉降速度與電位、電泳可動度、電導度、帶電復合粒子、帶電多孔性粒子、任意電雙層厚度。
  3. The results show that effects of alkali metal salts on conductivity are different because of their different anion radium, crystal lattice energy, ionic mobility and solubility in electrolytes, that different ionic conduction modes of electrolytes result to double - peak of salt concentration dependence of conductivity and different temperature dependence, and that different influences of plasticizer to conductivity result from their different action

    結果表明,不同堿金屬鹽對電解質電導率的影響因其陽離子半徑、晶格能、離子淌度以及在電解質中的溶解度的不同而不同;電導率的鹽濃度依賴性因電解質的離子傳導方式不同而明顯呈現雙峰形;增塑劑對電導率的影響則因其作用方式不同而產生不同的效果;電導率的溫度依賴性也因電解質的離子傳導方式不同而呈現不同的規律。
  4. Characterized by wide band gap, high breakage electric field, high thermal conductivity, high saturated electron mobility, cubic silicon carbide ( 3c - sic ), considered as one of the most promising wide band gap semiconductors, is widely utilized in high temperature, high frequency and large power semiconductor devices

    3c - sic被譽為最有潛力的寬禁帶半導體材料,具有帶隙寬、臨界擊穿電場高、熱導率高、飽和電子漂移速度大等優點,是高溫、高頻、高功率半導體器件的首選材料。
  5. In this work, the solid solution of li3. 4sio. 4vo. 6o4 as the matrix was chosen because of its suitable path for the mobility of li ions and the different material as the second phase to synthesize a series of lithium ionic conductor composites by sol - gel method, which bases on the opinion of the composites having higher ionic conductivity, and to research the synthetics method, compound - structure - function and so on

    本論文基於復合離子導體具有較高的離子電導率的觀點,以具有鋰離子可遷移通道結構的li _ ( 3 . 4 ) si _ ( 0 . 4 ) v _ ( 0 . 6 ) o _ 4固溶體作為基質,用不同的氧化物或鋰鹽為第二相,採用溶膠-凝膠法合成了一系列復合鋰離子導體新材料,並對其合成方法、組成-結構-性能關系進行了系統的研究。
  6. In 1982 professor tsui discovered the remarkable fractional quantum hall effect in his experimental studies of electrons in high - mobility semiconductor heterostructures placed in strong magnetic fields at very low temperatures. professor tsui and his co - workers found unanticipated plateaus in the hall conductivity, characterized by fractional quantum numbers, in contrast to the integral quantum hall effect discovered two years earlier

    崔琦教授於一九八二年發現限制在平面上運動的電子系統在強磁場、極低溫的條件下,形成一種奇異的量子液體,它的準粒子元激發具有分數電荷,遂呈現所謂分數量子霍爾效應。
  7. As a type of potentially good thermoelectric materials, cosb3 compounds with the skutterudite crystal structure mx3 have attracted attention widely, because of their high carrier mobility, large electrical conductivities, and large seebeck coefficients. however, the thermal conductivity of skutterudite is too large, so, zt is low. therefore reducing the thermal conductivity of cosb3 has becomed a main research way at present

    Cosb _ 3方鈷礦化合物作為一種具有潛在高熱電性能指數的新型中溫熱電材料具有大的載流子移動度、高的電導率和較大的seebeck系數,但由於熱導率較大,因此要提高cosb _ 3方鈷礦化合物的熱電性能,降低其熱導率是當前研究的熱點之一。
  8. The magnitude of the conductivity maximum increases and shifts to lower temperature with increasing sr content. in this paper, the electrical conductivity reaches maximum value at x = 0. 4. below the temperature corresponding to the maximum value, the electrical conductivity is found to follow the relationship for the small polaron hopping mechanism, charge compensation of oxygen vacancy dominates electrical conduction at high temperature, and oxygen vacancy acts as traps to catch carriers, resulting in the decrease of carriers concentration and mobility

    通過電學和熱學性能測試結果表明,電導率隨著sr含量的增加以及溫度的變化都出現了極大值,在本論文中,在sr含量為0 . 4時電導率值最大,電導率最大值對應的溫度隨著sr含量的增加而降低,這是由於在低溫下以小極化子導電機理為主,在高溫階段則是氧空位的電荷補償占據主導作用,氧空位使得載流子的濃度和可動性減弱,從而導致電導率降低。
  9. On the basis of the two - component soliton model, discussed the motion of a kink soliton in the presence of an external force and damping in hydrogen bonded systems, investigated the influence of motion and the optical model of the heavy - ions sublattice on the proton sublattice. the solution, the mobility and the conductivity of a kink soliton are found. the calculated results are in good agreement with the experiment results

    採用二分量弧子模型,討論了在外場和阻尼存在的情況下,氫鍵系統中扭結弧子的運動,研究了重離子子晶格運動和光學模對質子子晶格的影響,獲得了扭結弧子解、遷移率和電導率,計算結果和實驗值相一致
  10. With superior properties such as high thermal conductivity, high hole mobility, excellent chemical, thermal and radioactive stability, p - type diamond electrode can also greatly improve the stability of the devices, which complement the current electrode. the effect of boron concentration on the electronic properties of diamond films was investigated by raman spectroscopy, x - ray photoelectron spectroscopy and

    結果表明,摻雜金剛石膜突出的光學及電學性質及優異的抗高溫、抗腐蝕能力,機械強度大等優點,使其在作lppp發光器件的電極時,能克服一般電極在空氣中易於氧化、穩定性差的缺點,大大改善器件穩定性,提高器件壽命。
分享友人
分享到 Line

分享到臉書