Unconventional lattice dynamics in few-layer h-BN and indium iodide crystals Zhu Jun(祝俊) and Ji Pei-Yong(季沛勇) Modification of gravitational redshift of x-ray burst produced by pulsar surface magnetoplasma 2008 Chin. Shanghai Leading Academic Discipline Program, China (Grant No
Natural Science Foundation of China (Grant No 10573012) and the (MHD waves, plasma waves, and instabilities) Keywords: pulsars x-ray spectra relativity and gravitation redshift Reach the same magnitude as the gravitational redshift for ordinary Obtained and it is shown that the modification is of redshift and can Redshift, attributed to the flowing magnetoplasma of pulsars, is Propagation of x-ray bursts in magnetoplasma of pulsars can beĭescribed as x-ray bursts transmitting in an effective spaceĬharacterized by Gordon metric. Represent the gravitational metric and optical metric. The electromagnetic effects of surface superstrong magneticįield and dynamic effects of outflowing magnetoplasma of pulsars are Interaction between x-ray bursts and magnetoplasma is described as some geometry. In the magnetoplasma of pulsar magnetosphere is discussed. Link to Gravitational redshift of galaxies in clusters as predicted by general relativity.Abstract In this paper, the propagation of x-ray bursts Original Story Source: EurekAlert News Release. Wider and wider they spread, expanding, always expanding,Outward and outward and forever outward.” “Now the general theory of relativity has been tested on a cosmological scale and this confirms that the general theory of relativity works and that means that there is a strong indication for the presence of dark energy”, explains Radek Wojtak.Īs Walt Whitman once said, “I open the scuttle at night and see the far-sprinkled systems, And all I see multiplied as high as I can cypher edge but the rim of the farther systems. But, for now, we’re looking at the big picture in a different way. All these hypothetical models need to be taken into account. Of course, this kind of revelation also has other implications… theoretical dark matter just might play a role in gravitational redshift, too. In that way our observations confirm the theory of relativity.” “Our analysis of observations of galaxy clusters show that the redshift of the light is proportionally offset in relation to the gravitational influence from the galaxy cluster’s gravity. “It turned out that the theoretical calculations of the gravitational redshift based on the general theory of relativity was in complete agreement with the astronomical observations.” explains Wojtak. Then, using the general theory of relativity, the gravitational redshift could be determined by galaxy location. The next step in the equation is to measure the entire galaxy cluster’s total mass to arrive at its gravitational potential. Credit: Dark Cosmology Centre, Niels Bohr Institute
The observed data confirms Einstein’s general theory of relativity. It is a grotesquely large scale, which is a factor 1,022 times greater (ten thousand billion billion times larger than the laboratory test). With the new research the theory has been tested on a cosmological scale for the first time by analyzing galaxies in galaxy clusters in the distant universe. Until now, the gravitational redshift has only been tested with experiments and observations in relation to distances her on Earth and in relation to the solar system.