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- This effect, known as gravitational redshift, is not specific to black holes. 这种称做重力红移的效应,并不是黑洞所特有。
- This theory satisfactorily explains the anomalous orbit of Mercury and predicts the phenomenon of gravitational redshift. 这理论可以完满解释水星环绕太阳的奇异轨道,与及预测恒星被本身重力所造成的红移现象。
- The thermo-refractive noise influences the runtime of optical solitons in the detection of gravitational redshift by optical solitons storage rings. 在利用光孤子存储环探测引力红移时,热折射噪声会影响光孤子的运行时间,这种影响可以由研究高斯脉冲串给出。
- It is well known that observations accurately confirm the three predictions of Einstein [1, 2], namely: 1) the gravitational redshifts, 2) the perihelion of Mercury, and 3) the deflection of light. 众所周知,观察准确地肯定爱氏的三大预言,即:1)引力红移,2)水星的进动,和3)光线的偏移。
- Who exploded the cosmos: origin of gravitation and gravitational redshift 谁引爆了宇宙:引力起源与引力红移
- gravitational redshift 引力红移
- The foreground galaxy lies at a redshift of 0.39. 前台银河在于在红移为0.;39。
- The quasar lies at a redshift of 1.41. 类星体是在红移1.;41。
- Why Bother Looking for Gravitational Waves? 为什么要寻找引力波?
- Exact solution of spherical gravitational. 球面引力波的精确解。
- And thus its gravitational field. 重力场也是这个样子。
- The ripples are gravitational waves. 这些波动就是重力场波。
- It is a spontaneous gravitational instability. 原因在于其自发的重力不稳定性。
- They are likely sources of gravitational waves. 它们很有可能就是引力波源。
- Gravitational force from a shell;Hooke's 'law'. 利用积分推导球壳的引力;
- The cosmological redshift is not a normal Doppler shift. 宇宙学的红移并不是平常的都卜勒偏移。
- Can Ring Galaxies Form by Gravitational Collapse? 引力坍缩能形成环星系吗?
- Spacetime must be somehow granular to tame the dubious infinite redshift. 时空必须要有某种颗粒性来驯服暧昧的无限红移。
- An instrument used to measure variations in a gravitational field. 重差计用于测量重力场中变化的仪器
- Misunderstandings about the relation between redshift and velocity abound. 关于红移与速度之间的关系,也有不少误解。