quantum effect
英 [ˈkwɒntəm ɪˈfekt]
美 [ˈkwɑːntəm ɪˈfekt]
量子效应
双语例句
- Quantum effect and up-conversion luminescence of ZnO-SiO_2 composite films synthesized by sol-gel technique
溶胶-凝胶制备ZnO-SiO2复合膜的量子效应和上转换发光 - Study of Macroscopic Quantum Effect in Ni_4 Molecular Magnets
分子磁体Ni4宏观量子效应研究 - Nano-particle has surface effect, quantum dimension effect, and macro quantum effect and so on, which make nano-particle have particular physical and chemical properties.
纳米微粒具有的表面效应、量子尺寸效应、宏观量子隧道效应等使纳米微粒具有特殊的物理和化学性质。 - Quantum Effect Devices: Electron waveguides, single electron transistors, etc.
26量子效应元件:电子波导,单电子电晶体等。 - Researches on infimum of Hilbert space quantum effect
关于Hilbert空间量子效应下确界的研究 - Quantum effect of electron in gravitational field
重力场中电子的量子效应 - Quantum effect of electron transfer reaction for metal-benzene interaction system in the gas phase: an ab initio computation
用从头算法计算气相条件下金属-苯反应体系中电子转移反应的量子效应 - Waves of Probability and the Problems of Torsion for Quantum Effect
几率波与量子效应的扭率问题 - The Study on the Classical Effect, Quantum Effect and Origin of Inertia
惯性的经典效应、量子效应及起源的研究 - Study of the characteristics of the macroscopic quantum effect state
宏观量子效应状态特征的研究 - Nano-sized ZrO_2 shows many peculiar characters because of quantum effect, surface effect, etc.
纳米ZrO2具有量子尺寸效应、小尺寸效应和表面效应,展现出许多独特的性质。 - The development and significance of quantum effect devices are discussed in this paper, to elucidate certain laws onthe scientific development in epistemology.
本文讨论了量子效应器件的发展及其意义,并以此论述了认识论中有关科学发展的一些基本规律。 - This review paper introduces the theory of the Hawking radiation of black holes, I, e. quantum effect of matter phenomenon in the gravitational field.
本文对黑洞的Hawking辐射(引力场中物质的量子效应)现象与研究现况,作了较为详细的概述。 - The classic and quantum effect of gain dispersion in soliton propagation
孤子传输中增益色散的经典和量子效应 - This paper discuss quantum effect and count feature length of electron in gravity field.
讨论了重力场中电子的量子效应,并计算了电子在重力场中的特征长度。 - The difinition, classification, characteristic, working principle, specific property, manufacturing mathod and application of the quantum effect device are introduced in this paper.
本文介绍了量子效应器件的定义、分类、特点、工作原理、特性、制造方法和应用。 - This paper introduces the basic principles of thermoelectricity and the factors that can affect the thermoelectric efficiency, and also discusses the quantum effect and theoretical model of low-dimensional thermoelectric materials.
介绍了温差电的基本原理和影响温差电性能的因素以及低维温差电材料的量子效应和理论模型。 - And lead to phase spreading in quantum effect.
在量子效应中,增益色散引起孤子的相位发生扩散。 - The displacement distribution and the related behavior reflect the quantum effect of single vacancy.
计算结果发现位移分布及其相关行为反映了单空位体系的量子力学效应; - The trend achievement of the quantum effect device manufactured at home are introduced also.
还介绍了国内研制量子效应器件的动态和成果。 - Electronic structure and quantum effect of quantum dot
量子点的电子结构及量子效应 - The Quantum Effect Analysis of Identical Particles Scattering
全同粒子散射的量子效应分析 - The existence of the low-dimensional structure would result in the appearance of quantum effect at low temperatures.
这些2D和0D低维结构的存在会导致该异质结在低温下表现出量子特性。 - As the typical representation of exhibiting quantum effect in low dimensional mesoscopic system, the Kondo phenomenon quantum in dot system becomes the hot topic in condensed matter physics.
量子点结构是研究低维介观量子效应的典型代表,所以量子点中的Kondo效应在凝聚态物理学中被研究的极为广泛。 - Controlled growth and their novel quantum effect of low dimensional nanostructures are two core issues in nanoscience and nanotechnology.
低维纳米结构的可控生长和新奇量子效应是纳米科学与技术的核心研究内容之一。 - Quantum secure communication which uses the quantum effect to protect the information is based on quantum mechanics and classical cryptography. The security is based on quantum non-cloning theorem and uncertainty principle.
量子保密通信以量子力学和经典密码学为理论基础,利用微观粒子的量子属性实现信息保护,其安全性由量子不可克隆定理和量子测不准原理保证。 - Quantum optics, based on the quantum theory, mainly research the quantum characters of the optical field and the quantum effect of the interaction between light and matter.
量子光学是建立在量子力学基础之上的一门学科,主要研究光场的量子特性,以及光与物质之间相互作用的量子效应。 - This paper uses tight-binding and density functional theories which consider the quantum effect in nanoscale, to study the electromechanical properties which are common issues in grapheme NEMS applications.
本文利用紧束缚模型和密度泛函理论等针对纳米尺寸、考虑量子效应的理论模型及计算方法,研究了石墨烯NEMS应用中常见的机电耦合特性问题。 - The surface effect, scale effect and quantum effect are important features that affect the physical, chemical and mechanical performances of nanometer structures and/ or particles.
表面效应、小尺度效应和量子效应是影响纳米结构,纳米颗粒物理、化学及力学性能重要因素。 - Quantum dots show unique quantum effect, thus have strong photoelectric conversion capability in theory.
量子点具有独特的量子效应,理论上有很强的光电转换能力。