期刊文献+
共找到4篇文章
< 1 >
每页显示 20 50 100
Three Dimensional Space-Time Gravitational Metric, 3 Space + 3 Time Dimensions 被引量:1
1
作者 Espen Gaarder Haug 《Journal of High Energy Physics, Gravitation and Cosmology》 2021年第4期1230-1254,共25页
We have recently suggested a new quantum gravity theory that can be unified with quantum mechanics. We have coined this theory collision space-time. This new theory seems to be fully consistent with a 3-dimensional sp... We have recently suggested a new quantum gravity theory that can be unified with quantum mechanics. We have coined this theory collision space-time. This new theory seems to be fully consistent with a 3-dimensional space-time, that is, three space dimensions and three time-dimensions, so some would call it six-dimensional. However, we have shown that collision-time and collision-length (space) are just two different sides of the same “coin” (space-time), so it is more intuitive to think of them as 3-dimensional space-time. In previous papers, we have not laid out a geometric coordinate system for our theory that also considers gravity, but we will do that here. We are pointing out that Einstein’s negative attitude towards relativistic mass can perhaps cause a weakness in the foundation of general relativity theory. When a relativistic mass is incorporated in the theory, this mass also seems to indicate one needs to move to three-dimensional space-time. Then, for example, our new theory matches fully up with all the properties of the Planck scale in relation to the mathematical properties of micro black holes, not only mathematically but also logically, something we demonstrate clearly that it is not the case of general relativity theory. Our new metric has many benefits as an alternative to the Schwarzschild metric and general relativity theory. It seems to be more consistent with the Planck units than the Schwarzschild metric. Most importantly, it seems to be fully consistent with a new quantum gravity theory that seems to unify gravity with quantum mechanics. 展开更多
关键词 Escape Velocity Spherical gravitational metric Schwarzschild Radius Collision Space-Time Planck Scale
下载PDF
Metric of Rotating Charged Spherical Mass in Vacuum for Vector Graviton Metric Theory of Gravitation
2
作者 QIAN Shang-Wu ZHONG Zai-Zhe GU Zhi-Yu 《Communications in Theoretical Physics》 SCIE CAS CSCD 2005年第5X期855-857,共3页
Based on the vector graviton metric theory of gravitation (VGM) suggested by one of the authors of this article, using the method of null tetrad and analytic continuation, this paper gives the metric of the rotating c... Based on the vector graviton metric theory of gravitation (VGM) suggested by one of the authors of this article, using the method of null tetrad and analytic continuation, this paper gives the metric of the rotating charged spherical mass in VGM. The result shows once again that a replacement of G by G* = G(1 - G M /2r) in general relativity will yield the corresponding result in VGM for the metric in vacuum. 展开更多
关键词 metric theory of gravitation vector graviton field TETRAD Kerr-Newman metric
下载PDF
A Possible Interpretation on Distance-Dependent Effect of Gravitational Constant in Newton's Theory of Gravitation
3
作者 QIANShang-Wu 《Communications in Theoretical Physics》 SCIE CAS CSCD 2005年第6期1045-1046,共2页
Based on the new metric theory of gravitation suggested by the author of this article, it gives a possible theoretical interpretation on the famous experiment done by D.R. Long in 1976, i.e. the distance-dependent eff... Based on the new metric theory of gravitation suggested by the author of this article, it gives a possible theoretical interpretation on the famous experiment done by D.R. Long in 1976, i.e. the distance-dependent effect of the gravitational constant in Newton's theory of gravitation. 展开更多
关键词 general relativity metric theory of gravitation vector graviton field
下载PDF
A Possible Modification of Einstein's Theory of General Relativity
4
作者 QIANShang-Wu 《Communications in Theoretical Physics》 SCIE CAS CSCD 2004年第3期377-380,共4页
This article suggests a new metric theory of gravitation, in which metric field is determined not only by matter and nongravitational field but also by vector graviton field, and in principle there is no need to intro... This article suggests a new metric theory of gravitation, in which metric field is determined not only by matter and nongravitational field but also by vector graviton field, and in principle there is no need to introduce the Einstein's tensor. In order to satisfy automatically the geodesic postulate, an additional coordinate condition is needed. For the spherically symmetric static field, it leads us to quite different conclusions from those of Einstein's general relativity in the interior region of the surface of infinite redshift. Accurate to the first order of , it obtains the same results about the four experimental tests of general relativity. 展开更多
关键词 general relativity metric theory of gravitation vector graviton field
下载PDF
上一页 1 下一页 到第
使用帮助 返回顶部