The present work is connected with the investigation of the origin and properties of compact astrophysical objects endowed with strangeness, with the objective of finding out their relevance in the formation and evolution of the universe. In the first part of the thesis, Chap.~1-3, we discuss a model, proposed by us, to describe the propagation of small lumps of Strange Quark Matter (SQM) or strangelets, through the Terrestrial atmosphere. The theoretical results were found to be well correlated with exotic cosmic ray events characterized by very low charge to mass ratio. In the next part, we have investigated the other end of the mass spectrum of SQM. In Chap 5, we have developed an analytical expression for the Chandrasekhar Limit of Strange Quark Stars. The limit is found to depend on the fundamental constants (including the bag constant). In the last chapter we have endeavored to show that the quark nuggets, surviving the quark-hadron phase transition in the millisecond era of the early Universe can provide the required closure density and can merge to form compact quark matter objects, whose maximum mass would be governed by the formulation laid out in the preceding chapter. We have also found that these Cold Dark Matter objects can explain the recent astronomical observations of MACHOS by gravitational micro-lensing techniques in the Large Magellanic clouds in the Halo of our Galaxy.
翻译:目前的工作与调查具有奇异特性的紧凑天体物理物体的来源和特性有关,目的是查明它们与宇宙形成和演变的关联性。在论文的第一部分,即第~1-3章,我们讨论了我们提出的一个模型,以描述通过陆地大气传播奇怪的夸克物质(SQM)或奇形怪状的小块块(SQM)或奇形怪状物。在理论结果中发现,它与奇异的宇宙射线事件密切相关,其特点是对质量比率非常低。在下一部分,我们调查了SQM质量波段的另一端。在第5章,我们为奇异夸克星的Chandrasekhar限制(Chandraskhar Limit of Strange Quark Starks)开发了一种分析表达方式。这一限制取决于基本常数(包括袋子常数 ) 。我们在最后一章中努力表明,在早期宇宙的夸克-hadron阶段过渡之后,可提供所需的封闭密度,并可以合并成紧凑的夸克质物体,其最大物体的物体将受最新MAL-MANS轨道观测中的最新定值。在前一章中,我们找到的冷态的银云中。
相关内容
微信扫码咨询专知VIP会员