No other science is like the physical science with so many open questions and at the heart of these conundrums is the nature of space-time.
This book presents an attempt to address the question of quantized space-time using the classical field theory where a series of published papers which deal with the structural aspect as well as the cosmological implications are discussed.
the first paper (quanton fields: evolution and degrees of freedom) discusses the evolution of constituent fields space time and how they are related and the inflationary consequences of the universe.
The second paper (quanton based model of field interactions) treats the fundamental as well as space fabric interactions
The derivations and equations are treated sequentially which allows the reader a greater grip with with the evolution of each interaction.
The third paper (symmetries in the universe) discusses the cosmological implications of quantized space time in detail and offers a possible origin to the large number hypothesis.
The fourth paper (locally varying Hubble parameter) tries to relate the relativity based cosmological models to the quanton based model and discusses one on the current topics of interest in the field of astronomy namely (the Hubble tension) is treated in details
The biggest asset of this book is its simplicity as it deals with otherwise difficult subjects without delving into strenuous mathematical formulation which makes it ideal as a starting point for deeper understanding of the physical phenomena.
