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Rowan-Robinson, M., Babbedge, T., Oliver, S., et al. (2008) Photometric Redshifts in the SWIRE Survey. MNRAS, 386, 697-714. http://dx.doi.org/10.1111/j.1365-2966.2008.13109.x

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期刊名称: 《Astronomy and Astrophysics》, Vol.4 No.4, 2016-10-18

摘要: 新引力宇宙度规导出新光度和光度距离方程，可以绘出全部红移的光度距离图，是斜率为0.5的直线簇，能对每个光度在图中精确表述。光度(L–L)图的点坐标集中在对角线两旁，紧凑有规律分布，全部红移绘出图。标准宇宙学没有这样的图。计算分析高红移星系团应该是星系长城局域。星系所有观测的物理量都受到宇宙基本均匀的引力效应，随红移值增大宇宙基本均匀引力增强。下面讨论中只有一个宇宙视界恆量,不用暗能量可以分析星系的全红移的光度距离图。 With the new cosmic gravity metric, the author gets the new equation of the new luminosity and the luminosity distance to draw the luminosity distance diagram of all the redshifts, which is a line cluster with slope = 0.5. Every luminosity can be shown accurately in this diagram. Point coordinates of luminosity’s diagram (L-L) gather on both sides of diagonal closely and regularly. All the redshifts can be drawn into diagram. There isn’t any diagram like this in standard cosmology. Through calculation and analysis, we can learn that galaxy groups and clusters of high redshift should be the Great Wall of galaxies. All physical quantities in the galaxy are influenced by basically well-distributed gravity effect in the universe and it increases as the redshift’s value increases. In the following discussion, there is only one cosmic horizon constant and all the physical quantities observed on the galaxy with all redshifts can be analyzed without dark energy.

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