1.
relativistic quantum-mechanical equations of particle and multiparticle system
单粒子与多粒子体系的相对论量子力学方程
2.
The Basic Postulates of Vacuum Fluctuation and Their Deductions;
真空涨落与相对论量子力学的共同基础
3.
nonrelativistic quantum mechanics
非相对论性量子力学
4.
Quantum mechanics and relativity have revealed the boundaries of validity of classical mechanics.
量子力学和相对论,揭示了经典力学的适用范围。
5.
We will use the terms quantum mechanics, quantum physics, and quantum theory synonymously, to refer to both relativistic and non-relativistic quantum mechanics.
我们将会使用术语量子力学、子物理学和量子理论同义,指的既相对又非相对量子力学。
6.
A Rough Idea on Eliminating the Deep Contradiction between Relativity And Quantum Mechanism;
消除相对论与量子力学深层矛盾的新进路
7.
Incompatibility of between Quantum Mechanics and the Theory of Relativity and the Relation with the object of Research of Physics
量子力学和相对论的不相容性与物理学研究对象的关系
8.
Special relativity and quartum mechanics were two major theories that appeared subsequently.
狭义相对论和量子力学是相继出现的两个主要理论。
9.
In the first chapter we discuss the relativistic kinematics at a quantum mechanical level.
第一章我们在量子力学的基础上讨论了相对论运动学。
10.
General Relativity Effect of Photon and Graviton with Rest Mass;
光子、引力子静质量的广义相对论效应
11.
As currently understood, general relativity and quantum mechanics are incompatible.
就现在的理解,广义相对论和量子力学是不相容的。
12.
Relativity and quantum mechanics have radically altered our picture of nature.
相对论和量子力学已经从根本上改变了我们对大自然的看法。
13.
Still, non-relativistic quantum mechanics is also used due to its simplicity and when relativistic effects are relatively small.
尽管如此,也使用非相对性量子力学,由于其简单而当相对论作用相对小时候。
14.
In some cases, both general relativity and quantum mechanics converge.
在某些情形里,广义相对论和量子力学集中于一点。
15.
The Paradigm Information of Theory of Observocontrol Relativity--concurrently comment on the two new kinds of explanation of quantum mechanics;
观控相对论的信息范型——兼评两种量子力学的新解释
16.
This feature of special relativity is untouched in the two other pillars of modern physics, general relativity and quantum mechanics.
在近代物理的另外两大支柱(义相对论和量子力学)中,这个狭义相对论的特性并没有再修改。
17.
Today scientists describe the universe in terms of two basic partial theories -- the general theory of relativity and quantum mechanics.
今天科学家们按照两种基本的局部理论——广义相对论和量子力学来描述宇宙。
18.
Thus for energies in this range it is essential to use relativistic mechanics.
所以,对这样大的能量来说,必须应用相对论力学。