量子场论起源于探索场的量子理论的思想。
Quantum field theory was originally thought to be a quantum theory of fields.
戴维斯的研究侧重于宇宙论、量子场理论和太空生物学。
Davies' research focuses on cosmology, quantum field theory and astrobiology.
对于描述电力学系统量子场理论的全部设备常常是多余的。
The full apparatus of quantum field theory is often unnecessary for describing electrodynamic systems.
按薄层模型的观点,在视界面附近薄层上的量子场的熵就是黑洞的熵。
The entropies of quantum fields on event horizon of a toroidal black hole are given using the improved brick-wall model.
在尾注处,威尔茨克特别声明到量子场的本质问题不适合胆小鬼,这本书也是如此。
In an endnote Mr Wilczek warns that the nitty gritty of quantum field theory is not for sissies. Nor is this book.
运用相对论量子场理论,提出了一个相对论格林函数计算能带的近似方法。
Applying the theory of relativistic quantum field, the paper puts forward an approximate method to calculate electronic energy band with relativistic Green Function.
大家好“ 量子场英语分享我的一天。本文针对自己为了提高写作水平,写的不好见谅。
Everybody is good ' XiaoYi seo ' share my day. The author himself in order to improve my writing, writing well forgive me.
量子电动力学是规范的量子场理论,我们在上面已经讨论了这种理论框架中的一些过程。
Quantum electrodynamics, some processes in which we have discussed above, is the prototype quantum field theory.
量子场英语—打下的基础是相当重要的,没有前几年的各方面的积累,就算有98推也做不好。
Quantum field English – to lay a foundation is very important, not all aspects of a few years ago, even if the accumulation of 98 push also can't do it well.
有界状态和极限集的存在性解释了量子场理论中混沌现象与湍流现象的内涵,并讨论了分歧现象与临界速度。
The existence of bounded states and limit sets are concerned in order to explain chaos and turbulence phenomena in quantum field theory. Bifurcation and two critical speeds are discussed.
在量子场理论中,这个瞬间电偶极子有序化的过程被称为极化,它产生一个次电场,与第一个电场结合并使其强化。
According to quantum field theory, this sudden snapping to order of electric dipoles, called polarization, generates a secondary electric field that combines with and strengthens the first field.
刘雄军:凝聚态理论和超冷原子气。主要关注量子物质拓扑相,摹拟规范场和自旋轨道耦合效应,以及多体物理。
Liu, Xiongjun: Condensed matter theory and ultra-cold atoms, focused on topological phase of quantum matter, synthetic gauge field and spin-orbit coupling effect, many-body physics.
应用转移矩阵法,求出了垂直于界面的量子能级,并计算了场发射电流。
By using the transfer matrix method, we calculated the quantum energy levels and emission current.
所以,光场压缩态仍然是量子光学的一个重要课题。
Therefore, the study on squeezing phenomena is an important topic in quantum optics.
高亮度的辐照热光源一定程度上限制了基于经典热光场的强度关联量子成像技术的实验研究和广泛应用。
The intensity correlated quantum imaging experiment and application with thermal light restricted by the high bright thermal light to some extent.
多维度是量子物理中统一场的有效性,它是存在的,是真的。
Multidimensionality is a validity of the unified field, of quantum physics. It exists, it is real.
光场与原子相互作用是量子光学研究的主要内容。
The interaction of the field and the atom is the main content in quantum optics field.
本文在理论和实验上研究了多模激光场的量子统计特性。
Quantum statistics properties of multimode laser fields has been studied both theoretically and experimentally.
运用量子化学、晶体场及化学成键理论,深入分析了中间化合物及一氧化钛的相对稳定性。
The relative stabilities of intermediate compounds and titanium monoxide were examined deeply with quantum chemistry, crystal field and chemical bond theory.
由此可见选取合适的参量可优化电磁感应透明过程中单光子场的量子统计特性。
So the quantum statistical property of single-photon field in EIT can be optimized in different conditions when appropriate parameters are chosen.
提出了一种量子信息转移方案,它是基于两个耦合的二能级原子同时与单模腔场发生大失谐相互作用实现的。
We present a scheme for transferring quantum information, which is based on the nonresonant interaction of two two_level atoms with a single_mode cavity field.
利用耦合场诱导的量子相干,极大地减小了介质对探测光的吸收。
The absorption against probe laser field can be largely suppressed via quantum interference by coupling laser fields.
相应的量子温度是补偿场的纯规范势。
The relevant quantum temperature is a pure-gauge potential of the compensate field.
结果表明,由于相位损耗的存在使得光场和系统的量子态偏离初始纯态。
The results show that the existence of cavity phase damping leads to the phenomenon that the quantum states of the field and the system deviate from the initial pure state.
分别讨论了初始光场的平均光子数和失谐量对光场量子特性的影响。
The influences of initial average photon Numbers and the detuning are discussed.
人体系统辐射场的量子化与物质相互作用是量子人体研究的重要内容。
Interaction between quantumization and matter of human body radiation field is the important content of the study of quantum human body.
同时,还证明了在描写光场的相干性方面,光场的量子相位与量子相干性是并协的。
Also show the quantum phase and coherence properties of the field are complementary in description of the optical quantum coherence.
同时,还证明了在描写光场的相干性方面,光场的量子相位与量子相干性是并协的。
Also show the quantum phase and coherence properties of the field are complementary in description of the optical quantum coherence.
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