Does the Transition to Planckian Space Time Physics Allow Octonionic Gravity Conditions to Form?  

作　　者：Andrew Walcott Beckwith Andrew Walcott Beckwith(Department of Physics, Chongqing University, Chongqing, China)

机构地区：[1]Department of Physics, Chongqing University, Chongqing, China

出　　处：《Journal of High Energy Physics, Gravitation and Cosmology》2023年第2期561-581,共21页高能物理（英文）

摘　　要：We are in this document asking if Octonionic gravity [1] is relevant near the Planck scale. Furthermore, we ask if gravitational waves would be generated during the initial phase, of the universe when an increase in degrees of freedom that have in setting is used. We demonstrate how a Gaussian mapping, combined with a strange attractor will enable quantum gravity to form. The key development would be in using a strange attractor [2]. In addition, the supposition R. Penrose made: is presented with a more traditional cosmological constant, not varying over time? Does the Penrose model directly allow us to form a much simpler Entropy expression? However, in doing so, we make note of how a quartic phase transition initially may impose a level of precision in parameters impossible to verify with present experimental equipment.We are in this document asking if Octonionic gravity [1] is relevant near the Planck scale. Furthermore, we ask if gravitational waves would be generated during the initial phase, of the universe when an increase in degrees of freedom that have in setting is used. We demonstrate how a Gaussian mapping, combined with a strange attractor will enable quantum gravity to form. The key development would be in using a strange attractor [2]. In addition, the supposition R. Penrose made: is presented with a more traditional cosmological constant, not varying over time? Does the Penrose model directly allow us to form a much simpler Entropy expression? However, in doing so, we make note of how a quartic phase transition initially may impose a level of precision in parameters impossible to verify with present experimental equipment.

关 键 词：High-Frequency Gravitational Waves (HFGW) SYMMETRY Causal Discontinuity 

分 类 号：O17[理学—数学]