英语人>网络例句>quantum state 相关的网络例句
quantum state相关的网络例句

查询词典 quantum state

与 quantum state 相关的网络例句 [注:此内容来源于网络,仅供参考]

For example, we cannot copy an unknown state exactly because of "the no-cloning theorem"(no-deleting theorem), which is known as one of the most significant differences between classical and quantum information. Therefore to get to know what we can and cannot do in QIS or in quantum physics becomes an important and interesting problem. Particularly, in quantum communication and quantum cryptography, many novel schemes are based on the fact that nonorthogonal states cannot be discriminated determinately.

例如,经典信息中,编码状态是可以精确复制、区分的;而在量子信息中,由于叠加性的存在,使得非正交态不可区分,量子态不可复制、删除等;故而以往既成的观念都被打破,探讨在量子信息的框架下编码信息的估计、物理可实现的操作,以及这些量子体系在外界通过物理方法进行识别过程中的差异,是量子信息学、乃至物理学中的重要也很基本的问题。

Quantum information is a new interdisciplinary subject that is a combination of quantum mechanics and classic information science. Quantum information, which is based on the basic theory of state superposition principle of quantum mechanics, mainly researches information management.

量子信息学是经典信息论与量子力学相结合的新兴交叉学科,是以量子力学的态叠加原理为基础,研究信息处理的一门新兴前沿科学。

On the basis of the concept of perfect quantum gas, a physical model of extreme relativity is established for perfect quantum gas, and also according to the conclusions of the state density of the extreme theory of relativity, the densities of quantum statistics′ particle numbers and energy, the extreme relativity′s result of the enthalpy、internal energy and heat capacity of the perfect quantum gas is obtained under the high temperature by strict theory inference.

在理想量子气体概念的基础上,首先建立极端相对论理想量子气体的物理模型;再根据极端相对论的态密度和量子统计的粒子数、能量的密度结论,通过严格的理论推导,得出理想量子气体在高温条件下的极端相对论性的焓、内能和热容量的结果,并将其热容量与高温条件下的理想量子气体、经典理想气体的热容量对比,指出极端相对论与非相对论两种模型、理想量子气体与经典理想气体两种模型的热容量之间的差异,同时分析这些差异的物理原因在于各自气体模型的态密度以及对应体系的波函数的对称性;最后阐明高温条件下极端相对论理想量子气体的热容量在量子统计方面的先进性及应用前景。

Magnetic properties of a series of Cd1-xMnxSe quantum dots with different sizes and Mn concentrations were measured by using superconducting quantum interference device magnetometer. The field dependent magnetization of the Cd1-xMnxSe quantum dots at 2 K was obtained and it was identified not to be dominated by CdSe quantum dots but Mn ions.

我们利用超导量子干涉仪量测不同尺度(D = 5 nm, 8 nm)及不同Mn浓度(x = 0.375%, 0.75%, 1.5%)的Cd1-xMnxSe奈米颗粒磁性;我们推测在温度2 K下,所量测的磁化强度是由Mn原子贡献而非来自奈米颗粒,拟合其磁化强度对磁场曲线图而得出样品中Mn原子个数,同时假设Mn离子的磁性行为高达室温仍满足Brillouin function和Curie顺磁定律,所以可从高温的数据扣除Mn的顺磁贡献。

The maximum absorption peak was at long wavelength (>650nm), extinction coefficient achieves 10〓 degree, which was one degree higher than HpD. The study has revealed that CPD photosensitizer appeared blue movement under the relevant body environment. The spectra parameters provided basis for selecting light source of PDT. Measurement system which measured singlet oxygen and its quantum yields within the infare range had been set up and the quantum yields of singlet oxygen for CPD were reported: the quantum yields of singlet oxygen for CPD〓 was the highest (φ=0.83) while he quantum yields of singlet oxygen for CPD〓 was the lowest (φ=0.83). Photobleaching's half life time was studied.

给出了此类光敏剂的光谱指认和光谱参数:其吸收光谱峰值位于长波红光区(>650nm),摩尔消光系数达10〓LmoL〓cm〓量级,比血卟啉衍生物高出一个数量级;研究揭示了此类光敏剂在近似体内环境下光吸收的蓝移现象,为光动力治疗光源的选择提供了依据;建立了在近红外光谱区中测定敏化单态氧的光谱和量子产率测量系统,报导了该类光敏剂敏化单态氧的量子产率,其中CPD〓的单态氧量子产率最高(φ=0.83),CPD〓的单态氧量子产率最低(φ=0.51);测定了二氢卟吩类光敏剂的光漂白半衰期。

We have established some properties of languages of Lattice of Quantum Automata. For example, the definitions of Right-Linear Grammars of Lattice of Quantum, Regular Sets of Lattice of Quantum and Regular Expressions of Lattice of Quantum have been given.

我们证明了量子自动机格有一些重要的性质:它是分配格当且仅当自动机的基格是分配的;它是模格当且仅当自动机的基格是模格;它是完全格当且仅当自动机的基格是完全格。

In this paper employing periodic function of complex function, a power function and a logarithmic function were constructed to obtain Principle Quantum Number , Angular Quantum Number , Magnetic Quantum Number , Spin Quantum Number and the relations between them.

利用复变函数中周期函数结构,构造了一个幂函数和一个对数函数。给出了电子的主量子数、角量子数、磁量子数和自旋量子数,以及它们之间的关系。

Based on quantum theory,the new field of quantum electronics and quantum optoelectronics has evolved,devoted to studies of the principle,structure and applications of semiconductor quantum devices.

以量子理论为基础,以半导体量子器件为研究对象,形成了一门新的学科——半导体量子电子学和量子光电子学。

At the every relative momentary point of time time-space, is to the situation of observe identity mutuality gravitation and space-energy quantum spatial measurement cosmic energy at relatively determine, namely to the difference of quantity quantum of the original spatial measurement and the spatial measurement limit of cosmic energy, to the quantity of quantum spatial measurement cosmic energy, to the situation of spatial measurement and spatial curvature relative time-space cosmic energy, to the difference of spatial measurement of the gravitation exceed the space-energy of quantum spatial measurement cosmic energy, to the situation of the average density spatial energy and the temperature spatial background of relative time-space cosmic energy, to the situation of spatial measurement and spatial curvature relative vacuum cosmic energy all at relatively determine.

在时空时间的每一个相对时刻点,是对宇宙能量的宇称量子的引力与空间能的守恒状况的相对确定。即是对宇宙能量的原初宇称量子与极限宇称量子的数量差,宇宙能量的宇称量子数量,宇宙能量的相对时空的宇称及空间的曲率状况,宇宙能量的宇称量子的引力大于空间能的宇称差,宇宙能量的相对时空空间的能量平均密度及空间的背景温度状况,以及对宇宙能量的相对真空的宇称及空间的曲率状况全都在相对地确定。

The goal of quantum computing is directed towards multi-qubits. In the process, the crucial problem we are facing is how to design corresponding quantum logic gate network through universal quantum logic gate according to the quantum computing task, that is, unitary transformation.

量子计算的目标是向多量子位的方向发展,在此过程中,我们面临的关键问题是针对量子计算任务如何由通用的量子逻辑门来设计相应的量子逻辑网络,即酉变换。

第2/50页 首页 < 1 2 3 4 5 6 7 8 9 ... > 尾页
相关中文对照歌词
The Quantum Enigma (Kingdom Of Heaven Part II)
U.S.A.
State Of The Art
Quantum Leap
California Culture
Sinflation
State Of The Heart
State Of Mind
State Of Confusion
State Of Grace
推荐网络例句

The teacher likes the honeymouthed little girl very much.

老师很喜欢这个嘴甜的小姑娘。

Mr. Notker Bien's interests are traveling, spending quality time with the family and long-distance-running.

诺特卡·柏恩先生热爱旅游,长跑,以及和家人一起共度美好时光。

Completed in four years, the Airport Railway has proved yet again that Hong Kong remains a fast moving city with a well-proven track record of fulfilling our promises.

机场铁路工程由展开至完竣,前后只需四年的时间,一再证明香港仍是发展迅速的城市,而一直以来,我们都能实践承诺。