摘要

“重力粒子或时空粒子”理论解释重力和光使用相同的粒子和光速限制。暗物质、暗能量和质量的解释。解释为什么小粒子遵循量子力学，而大粒子遵循爱因斯坦相对论与黑洞奇点的分辨率

作者(年代):Mohammad Reza Movahed

一直有一个关于是什么传输电磁波和/或引力的问题。此外，暗物质和暗能量的本质仍然难以捉摸。这篇论文介绍了一个新的简单理论，它可以解释物理学中许多无法解释的现象。这一理论将激励许多物理学家和数学家以一种新的方式来思考我们的宇宙和物理学中未解之谜。在这一理论中，宇宙中存在的新粒子被称为“时空或Gravilon (Gravi代表重力，L代表光，on代表传输)”，被提出作为爱因斯坦所描述的时空结构/场的替代品。重力和光的传播速度相同的事实可以用时空粒子的存在来解释，因为它们利用相同的载体(时空粒子)来产生效果。宇宙中时空粒子的存在可以解释被称为暗物质的未知现象。时间粒子在空间粒子之间可能的最大收缩可以解释为什么光或任何物质不能超过最大光速，为什么时间几乎随着光速而停止。这些粒子在本文中被简化了，但很可能是复杂的结构，它们可能比已知的四维时空有更多的维度，并且在本质上可能具有非常多样化的多个亚单位，而不是本文中的简单插图。然而，在地核中，这些粒子由两个基本部分组成。 One part contains space particles connected to each other via other part time particles. Time particles could have particle quality but could also be pure energy. Basically, these Gravilon particles introduced in this paper have two major components. One is space and the other one is time. Space particles connected to the time particles could explain Spacetime effect known in the relativity theory. The main difference between this theory and the Einstein relativity, is the fact that this theory is introducing Spacetime particles instead of Space-time fabric. Connection of space with time particles can also explain relativity. Furthermore, interaction of these particles with matter can give matters their masses as an explanation for why matter has mass. Higgs bosons and fields could be also a part of Spacetime particles. This simple theory could also explain limitations of light speed and why light and gravity have the same speed for their effect. Furthermore, probably the distance between Spacetime particles can be stretched or contracted to fit small propagating particles in between based on their sizes. However, these stretching, and contraction properties should have limits. Those particles that can fit between the Spacetime particles before reaching the maximal stretching capability of Spacetime particles will behave mostly as quanta following quantum mechanics rules. Once propagating particles are too large to fit between Spacetime particles, then the quanta's behavior will weaken or disappear making them follow the Einstein relativity theory. This mechanism can clearly explain why the size of particles are important in order to determine their behaviors. Spacetime particles have most likely their own gravitational forces like any particles in the universe. With their gravitational forces, many fundamental particles are attached to or are in between Spacetime particles including photons, electrons and more. These particles are most likely the vehicle of propagating photons and small particles explaining why small particles are propagating as a wave using Spacetime particles but losing wave character once interacting with matter as it will lead to the loss of Spacetime wave collapse. Another theory would be the theory that space particles can change to photons or other small particles under specific circumstances explaining wave and particle duality. Loss of gravity due to disintegration of Spacetime particles in the center of a black hole secondary to extreme forces can resolve the problem with singularity in the black holes. Gravitational forces of Spacetime particles can make Spacetime particles to be the same as dark matter. In galaxies, these particles are squeezed together due to high gravitational forces of stars and black holes leading to higher gravitational forces of Spacetime particles itself per unit space acting as dark matter in galaxies. Dark energy also can be explained by the gravitational forces of the multiverse around our universe pulling our galaxies apart using Spacetime particles between the universes as space can never be empty anywhere. The entire world is most likely packed with basic Spacetime particles but each universe after each own big bang should have individual modified surrounding Spacetime particles. Spacetime particles between universes could transmit gravitational forces of each universe to others leading to expansion of the neighboring universes including ours.