Badis Ydri Livres

The book offers a two-part exploration of computational physics, beginning with an introductory section featuring 21 simulations designed for undergraduate physics students. The second part delves into advanced topics, focusing on Monte Carlo simulations of matrix field theories, including noncommutative and fuzzy field theories. This section comprises 9 simulations aimed at doctoral students, enhancing their understanding of matrix phenomena. Additionally, it includes sample codes and key solutions to aid in the learning process.

The book offers an in-depth review of various interpretations of quantum physics, exploring the ongoing philosophical debates that have persisted for over a century. It examines the complexities and differing perspectives surrounding this foundational scientific theory, highlighting how these discussions continue to shape our understanding of reality.

Focusing on general relativity, this rigorous text serves as an essential introduction for physics and mathematics students interested in cosmology. It prepares readers to understand theoretical advancements and equips them for research endeavors in MSc or PhD programs. The book emphasizes the implications and interpretations of general relativity, ensuring a solid foundation for further academic pursuits in the field.

These lecture notes provide a systematic introduction to matrix models of quantum field theories with non-commutative and fuzzy geometries. The book initially focuses on the matrix formulation of non-commutative and fuzzy spaces, followed by a description of the non-perturbative treatment of the corresponding field theories.