然而,量子力学效应当认为可见宇宙为一整体时候通常不重要。
However, the effects of quantum mechanics are generally not significant when considering the observable Universe as a whole.
给出了电子密度的隐式表达式和阈电压的显式表达式,它们都充分考虑了量子力学效应。
Then , an implicit expression for electron density and a closed form of threshold voltage are presented fully comprising quantum mechanical ( qm ) effects.
通过量子化电容耦合电路和对角化电路哈密顿量,研究了介观电路在压缩真空态的激发态下的量子力学效应。
The quantum effects of the mesoscopic circuit with capacitive coupling under the excited states of squeezed vacuum states are investigated by quantizing the circuit and diagonalizing its Hamiltonian.
用四个点电荷构造一个简单、新颖的静电势阱,并基于含时薛定谔方程和有限差分时间域方法,研究冷原子在该势阱中的量子力学效应。
We suggest a novel trap of trapping a neutral atom with static electric field of four point charges, and discuss the quantum effects of the cold neutral atom in the trap.
隧穿磁强计是一种利用量子力学中隧道效应原理研制的MEMS磁强计。
Tunneling magnetometer is a kind of MEMS magnetometer based on tunnel effect in quantum mechanics.
利用量子力学隧道效应原理,对电火花加工机理进行了研究,给出了电火花加工本质的新解释。
By using the tunnel effect principle of quantum mechanics, the mechanism of electrospark machining is studied, and a new explanation of the essence of electrospark machining is given.
在以后HPM效应机理研究中,可以结合量子力学、统计电磁学等学科,以拓宽研究思路和方法。
New methods and ideals should be exploited by combining the quantum mechanics with statistical electromagnetism in the field of HPM effects.
首次将量子力学的微扰论引入自混合干涉效应,首次提出用LED作为自混合干涉测量光源的设想。
Introduced small disturbance theory in quantum mechanism into SMI effects, and put forward the idea of replacing the light source of LED for the first time.
以标量波动方程和隧道效应为例子,说明纤维光学中波动分析与量子力学方法的相似性。
Taking scalar wave equation and tunnel effect for example, the similarity of fiber optics to quantum mechanics was shown.
根据相关效应,建议将分子的量子力学计算方法分为三类。
Three types of methods for quantum chemical calculations have been proposed according to the correlation effects.
根据已有的微波生物非热效应的实验,应用量子力学推导出微波生物非热效应的公式。
A formula for athermal effect of bio-microwave is derived in terms of quantum mechanics.
量子传感器是根据量子力学规律、利用量子效应设计的、用于执行对系统被测量进行变换的物理装置。
Quantum sensor is a kind of physical device which is designed according to quantum mechanics law and quantum effect to implement the transformation of measured quantities of systems.
量子传感器是根据量子力学规律、利用量子效应设计的、用于执行对系统被测量进行变换的物理装置。
Quantum sensor is a kind of physical device which is designed according to quantum mechanics law and quantum effect to implement the transformation of measured quantities of systems.
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