Science

Exploring the ever-evolving universe: New theories about ever-changing

A universe that ruled all the basic laws from atoms to galaxies may not be as immutable as once thought. As the universe expands, contemplation of natural constants – determines the power, mass and energy of the entire universe, not just speculation. It challenges the fundamentals of physics and invites us to explore a universe where the dynamic interaction of force and matter redefines our concepts of permanence and change.

Professor Taekoon Lee of Kunsan National University proposed a model in a groundbreaking study published in a physical letter that suggested that these fundamental constants, especially coupling constants that are crucial for field theory, develop over time. This study proposes a thought-provoking mechanism that shows that UV cutoff (parameters limit the maximum energy scale in field theory) changes as the universe expands, resulting in the temporal evolution of these constants.

Professor Li’s model is based on the premise that it is affected by the scale of the universe, which is different from the traditional view of the laws of static physics. It seamlessly connects different re-normalized coupling constants, which are crucial for interactions in the standard model of particle physics, and the Hubble parameter is a measure of the rate of expansion of the universe. This concept depicts a picture of a universe in which the power and mass of the universe skillfully transforms in a cosmic time scale.

Reflecting on the nature of his research, Professor Li clarified: “Assuming that the UV cutoff is a different entity in the ever-expanding universe, he proposed a general model. He elaborated on his hypothesis and pointed out: “Assuming the cutoff amount depends on The scale factor of the universe, and all naked coupling remains the same. ”

This study delves into the meaning of this model for the standard model constant. One of the most fascinating findings is the predictive evolution of nuclear mass, which is closely related to strong coupling constants, suggesting its reflection on the expansion of the universe. This introduces a concept of a universe, not only the huge structure of the universe, but also the basic components of matter have undergone unremitting time parades. When discussing the wider implications of his findings, Professor Lee emphasized the enormous influence of his model within the scope of fundamental physics, thus emphasizing: “The evolution of the standard model constant is discussed.”

The implications of this study are profound, elucidating the theoretical basis of various constants and providing a basis for mediating these changes with empirical evidence. Observations increase the physical correlation of the model from potential changes in the cell structure constant in the quasar absorption spectrum to precise measurements using optical clocks. Furthermore, the study extends its coverage to the ratio of basic particle mass and even gravity constants, thus depicting a comprehensive view of the universe in the universe.

With the support of the South Korean National Research Foundation, Professor Lee’s work is an important step towards uncovering the deepest aspects of the universe. It challenges the ancient concept of unchanging laws of physics and urges rethinking of the universe in the universe. As the model is further refined and empirically tested, it has the hope of revolutionizing our understanding of the universe, providing insights into the establishment of the universe and its ultimate destiny. Professor Li’s model illuminates the path to a deeper understanding of the evolving nature of the universe.

Journal Reference

Taekwondo, “Model of Time Evolution of Coupled Constants”, Physical Letters B, 2024.

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