The Big Defreeze of the Universe: Identity Stem Waves and Complex Forces in Cosmology

Mohammad Hasan Algarhy

Abstract: This study proposes that the universe originated from a reverse mechanism of the Big Freeze, beginning as a tiny collective quantum wave, the 'Identity Stem Wave of the Universe' (ISWU). This wave accumulated energy, forming identity stem waves of matter, eventually leading to a super symmetrical crystal structure. The study introduces the concept of "The Big Defreeze," wherein the universe emerged from a frozen state at nearly absolute zero temperature. Additionally, the research explores three new fundamental forces, termed "The Complex Forces," which could explain universal expansion and symmetry-breaking mechanisms. The study also suggests a methodology using Bose-Einstein Condensates (BEC) to test the proposed framework, offering new insights into cosmology and quantum mechanics. Purpose: This research aims to propose a mechanism that explains the conditions preceding the Big Bang, the formation of identity stem waves, and the role of newly identified complex forces in shaping the universe. Significance: This research presents a significant advancement in cosmology and quantum mechanics by providing a novel framework for understanding the early universe and fundamental forces. The proposed model could offer new perspectives on the origins of matter and universal expansion.

Keywords: Cosmology, Big Bang, Bose-Einstein Condensates, Quantum mechanics, Schr?dinger equation, wave function, energy operator

How to Cite?: Mohammad Hasan Algarhy, "The Big Defreeze of the Universe: Identity Stem Waves and Complex Forces in Cosmology", Volume 14 Issue 2, February 2025, International Journal of Science and Research (IJSR), Pages: 880-887, https://www.ijsr.net/getabstract.php?paperid=SR25214134333, DOI: https://dx.doi.org/10.21275/SR25214134333