Fundamental field equation and artificial energy momentum tensor for gravitational wave;
引力波的基本场方程与假性能动张量
According to Electrodynamics in curved spacetime, the interaction between gravitational waves (GW) and electromagnetic (EM) fields will produce perturbative electromagnetic fields.
根据弯曲时空中的电动力学,引力波和电磁场相互作用时将产生扰动电磁场。
Gravity, gravitational waves and detector of gravitational waves;
引力、引力波和引力波的探测
It discusses theory of relativity featuring the characteristics of time and space, the principles of equivalence and general covariance in general relativity, gravitational field equations, the principle of relativity, time dilation, contraction of length, and gravitational waves in gravitational field.
对相对论中的时间和空间特性进行了探讨,分析了广义相对论中的等效原理和广义协变原理,讨论了爱因斯坦引力场方程,研究了相对性原理、引力场中的时间膨胀、长度收缩和引力波。
Under the diagonal metric and harmonic coordinate conditions, the fact that neither gravitational radiation nor gravitational waves exist are proved in this paper.
证明了在对角度规谐和条件下,不存在引力辐射和引力波,并对Bondi引力平面波和引力孤立波进行了讨论。
The potential sources of high-frequency gravitational waves (HFGW) are summarized, and some idiographic modalities of electromagnetic response of HFGW are enumerated.
综述了可能存在的高频引力波源 ,列举了高频引力波电磁响应的几种具体形式 ,重点介绍了高频电磁波束对引力波的电磁响应及使用该方法探测高频引力波的现实性 。
Using the expression of energy-momentum pseudo-tensor of cylindrical gravitational waves of both the polarized states,the authors got the expression of the energy and momentum after a great lot of calculations.
利用Rosen-virbhadra(R-V)给出的引力场能量动量赝张量的一般表达式,计算得到了双极化态柱面引力波能量动量的具体形式,并讨论了其正定性问题与渐进行为。
Under the framework of the Vierbein representation of the local Lorentz group gravitational gauge theory, the exact expressions of the energy momentum and the power flow density and total radiation power of the exact cylindrical gravitational waves of Einstein and Rosen are given in this paper.
在Vierbein 表述的局域Lorentz群引力规范理论框架下,给出了Ein-stein-Rosen 严格柱面引力波的能量动量、功率流密度和辐射总功率的严格表达式。
The Energy-Momentum Pseudo-tensor of the Cylindrical Gravitational Waves and Gravitational Solitons;
柱面引力波和引力波孤子的能量动量赝张量
A New Approach to Detect Continuous Gravitational Waves by the Folded Optical Soliton Storage Ring Adhering to Resonance Masses;
测量引力波的新方法光孤子存储环-共振棒测引力波
The size of the vibrations depends on the strength of the gravitational wave.
振动的幅度依赖于引力波的强度。
Binary stars are the strongest and most predictable sources of gravitational waves.
双星是最强最可预测的引力波源。
The strength of the gravitational wave determines how much an object will change in shape.
引力波的强度决定了物体形变的程度。
These spacetime distortions travel as gravitational waves.
这些时空的改变以引力波的形式传递。
It may help to think of gravitational waves as the ripples that form when you throw a rock into a pond.
把引力波想象成投入池塘中的石头引起的水波可能会帮助理解。
The Energy-Momentum Tensor of Gravitational Waves of the Double Polarized States and Electromagnetic Fields in Gravitational Waves;
双极化态引力波及其波场中的电磁波的能量动量张量
Mechanics Detect Effect of a Kind of Symmetric Attractive Wave of Quasi Plane;
一类准平面对称引力波的力学探测效应
This requires even more detectors because these waves are even weaker than the waves from binary stars and neutron stars.
这将需要更多的探测器,因为与双星和中子星产生的引力波相比,这些引力波还要更弱。
The bar then absorbs energy from the wave and this makes it vibrate.
铝棒会从引力波中吸收能量并产生振动。
Electromagnetic Response to Gravitational Wave: Classical Description and Its Quantum Duality;
引力波的电磁响应:经典图象及其量子对偶性
On False Vector Quantity Current Transform ing Gravitational Wave in Unitive Field;
弱电统一场中赝矢量流可以转化为引力波
Like ripples on a pond, gravitational waves lose strength as they move farther from where they started.
就像池塘中的水波,引力波在产生后的传播过程中也会损失能量。
Gravitational waves signals look like sine waves and occur at different frequencies that depend on their source.
引力波信号看起来象正弦波,但根据他们自己的震源有不同的频率。
The Resonance of a Gaussian Beam in a Static Magnetic Field to High-Frequency Relic Gravitational Waves;
在一静态磁场背景中高斯型微波束对高频遗迹引力波的谐振响应
Conversion and Resonance from Gravitational Waves to Electromagnetic Waves in a Typical Binary System with Magnetic Dipole;
具有典型磁矩的中子双星系统中引力波向电磁波的转化
Edvard Pehl was in some respects, I suppose, a desirable man.
爱德华·波尔在某些方面,我想,是有吸引力的。
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