量子隧道效應 的英文怎麼說
中文拼音 [liángzisuìdàoxiàoyīng]
量子隧道效應
英文
effect quantum tunnel- 量 : 量動1. (度量) measure 2. (估量) estimate; size up
- 子 : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
- 隧 : Ⅰ名詞1. (隧道; 地道) tunnel; underground pass2. [書面語] (道路) road3. (郊外的地方) suburbsⅡ動詞[書面語] (旋轉) turn
- 道 : Ⅰ名詞(道路) road; way; route; path 2 (水流通過的途徑) channel; course 3 (方向; 方法; 道理) ...
- 效 : Ⅰ名詞(效果; 功用) effect; efficiency; result Ⅱ動詞1 (仿效) imitate; follow the example of 2 ...
- 應 : 應動詞1 (回答) answer; respond to; echo 2 (滿足要求) comply with; grant 3 (順應; 適應) suit...
- 量子 : quantum; gion
- 隧道 : tunnel; tunneling; tunnelling; chunnel; drive
- 效應 : [物理學] effect; action; influence
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By analysis and comparison of the results, we draw the conclusion as follows : firstly, the quantum tunneling effect is quite pronounced
通過分析和比較計算結果,我們得到如下結論。第一,體系的能量-反應幾率變化曲線說明量子隧道效應顯著。The electrical conductance of the gold / polymer composite films was tunable, and a low resistivity of the order of 10 ~ ( - 4 ) cm was yield. the conducting mechanism was not determined, perhaps the tunnel effect and the foreign - substance - electron - transfer should be considered
聚合物金納米粒子復合薄膜的電阻率可調,電阻率最低可達10 ~ ( - 4 ) ? cm量級,導電機制可能與隧道效應及雜質離子導電有關。Owing to the extremely small dimensions, nanometer materials are structurally characterized by a large volume fraction of grain boundaries or interphase boundaries, which exhibit some unique structural characteristics and novel properties with respect to the conventional coarsegrained polycrystalline materials
由於納米粉體材料尺度極小,使之表面原子數、表面能急劇增加,產生了宏觀物體所不具有的表面效應、小尺寸效應、量子效應及宏觀量子隧道效應等新的性能。Electronic tunneling is a key aim of scientists in many countries
量子力學中的隧道效應一直是各國科學家研究的重要方向之一。In this article, four basic properties of nanometer particle are summarized : quantum size effect, surface effect, volume effect, macroscopical quantum tunnel effect, and several ways of preparation and evaluation of nanometer particle are introduced
摘要綜述了納米微粒的四個基本特性:量子尺寸效應、表面效應、體積效應及宏觀量子隧道效應,並介紹了納米微粒的制備方法及對納米微粒評估的方法。The nanometer particles are metastable materials that lie between macroscopical materials and atoms or molecules with the characteristics of little size effect, quantum measurement effect, surface effect and macroscopical quantum tunnel effect, etc., thus demonstrating some special properties
納米粒子是介於宏觀物質與微觀原子或分子之間的過渡亞穩態物質,具有小尺寸效應、量子尺寸效應、表面效應與宏觀量子隧道效應等,從而表現出一些特殊的性質。Nanoscience have been drawn considerable interest and physicaly investigated all over the world. the nanoparticles have different properties compared with bulk materials such as quantum size effect, surface effect, the dieletric confinement etc. the intrinsic optical properties of nanoparticles have been thoroughly studied
納米材料科學是一門涉及多學科領域的科學,納米顆粒由於尺寸小能產生量子尺寸效應,表面效應,介電限域效應和宏觀量子隧道效應等。Moreover, the density of nano - hexa - ferrites was reduced, so they are very easily to be applied. the purpose of this paper is to synthesize nano - hexa - ferrites. comparision with normal materials, nano - materials have special performance because of their special surface effect, volume effect, and quantum effect
納米粒子由於具有特殊的表面效應、體積效應、量子隧道效應,表現出與常規材料不同的物理化學性質,對納米吸波材料而言,其具有極好的吸波特性,同時具備吸波頻帶寬、兼容性好、質量輕和厚度薄等特點。This paper analyses the cause of producing reunite in nano - powder from four facets, such as quanta size effect, small size effect, surface effect and macroscopical quanta size effect, and countermeasures are suggested from three facets, such as preparation, storage and transport as well as use, both in theory and experiment
摘要根據作者理論和試驗方面的探索,從量子尺寸效應、小尺寸效應、表面效應及宏觀量子隧道效應等方面分析了納米粉體材料產生團聚的原因,並從制備、儲運、使用等方面提出了具體解決納米粉體材料團聚的措施。It is shown that the results calculated using the ccdwa are agreement with one of the accurate quantum mechanics employing the same potential. quantum mechanical tunneling is important in near threshold, and classical trajectory calculation is not good for prediction of the cross sections. the reaction cross sections calculated using different potentials is different, which show that the investigation of reaction cross section can provide evidence for test of accuracy of the potential energy surface
研究發現:勢能面相同時用ccdwa方法計算的截面和公認精確的量子力學結果比較符合;閾能附近的量子力學隧道效應較為顯著,準經典彈道方法不能很好的預言其截面;用不同勢能面計算的反應截面有差別,說明反應截面的研究能為檢驗勢能面的準確性提供依據。分享友人