1) gravitational red shift
引力红移
1.
Based on the postulates of vacuum fluctuation,a model of gravitational space is proposed,and the inverse-square law of gravity is deduced,the mechanism of gravitational red shift is interpreted with the same result given by Einstein s general theory of relativity.
在真空涨落基本假设的基础上,提出物质周围的引力空间模型,以此推演引力的距离反平方公式,并解释引力红移形成的机制,计算结果与广义相对论一致。
2.
It is pointed that there is some ambiguity and confusion in the expressions of the gravitational red shift in the writings about the general relativity.
指出了现有广义相对论专著中关于引力红移论述存在的含糊和混乱,并对这些含混内容给予了澄清。
3.
Both the effect of perihelion advance and the gravitational red shift caused by the mutual action of electric-magnetic charge and quadrupole moment、 magnetic momentum, respectively, are calulated.
给出了电 (磁 )荷参量分别与磁矩参量和质量四极矩参量相互作用所引起的引力红移效应和轨道近日点效
2) gravitational redshift
引力红移
3) red-shift of light frequency for gravitation
光频的引力红移
1.
From the gravitation potential of the generalized theory of relativity affecting the clock,we have discussed the semi-classic explanation of the red-shift of light frequency for gravitation.
运用引力势对时钟的影响及量子力学的测不准关系,计算了光频的引力红移,结果表明,由这种方法得到的引力红移量与人们预期的结果相符。
4) gravitational shift
引力频移
5) eleparallel gravity
平移引力
1.
In this paper, beginning with the translational gauge theory, the teleparallel gravity is reformulated in the Lagrangian formulation.
着重指出该表述的主要特点,并进一步对比广义相对论,详细论述了平移引力中挠率相应的动力学作用。
6) gravitational shift
引力移位
补充资料:引力红移
引力红移 gravitational redshift 在引力场的作用下谱线向红端位移。按照广义相对论,处在引力场中的光源发出的光,当从远离引力场的地方观测时,谱线会向红端(长波方向)移动,移动量同光源和观测者两处引力势差的大小成正比。这种引力红移首先在白矮星的研究中得到证实。20世纪60年代在地面上利用穆斯堡尔效应也定量地验证了引力红移。 |
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