International Conference on Quantum Field Theory and Particle Interactions (ICQFTPI - 26)

This track focuses on the latest developments in quantum field theory, including novel approaches and theoretical frameworks. Participants will explore the implications of these advancements for particle physics and beyond.

This session will delve into the intricacies of gauge theories, emphasizing their role in the Standard Model and beyond. Discussions will include recent breakthroughs and their implications for particle interactions.

This track will cover the various renormalization techniques employed in quantum field theory, highlighting their significance in making sense of divergent quantities. Researchers will present new methods and applications in different contexts.

This session will explore the utility of Feynman diagrams in calculating scattering amplitudes and their role in visualizing particle interactions. Participants will discuss both traditional and innovative approaches to diagrammatic techniques.

This track will investigate the phenomenon of symmetry breaking in quantum field theory and its profound implications for particle masses and interactions. Contributions will include theoretical insights and experimental validations.

This session will focus on recent advancements in quantum electrodynamics, including novel calculations and experimental results. Participants will discuss the implications of these findings for our understanding of electromagnetic interactions.

This track will address the current challenges in quantum chromodynamics, particularly in the context of confinement and asymptotic freedom. Researchers will present new theoretical insights and experimental data that shed light on these issues.

This session will explore the path integral formulation of quantum field theory and its applications in non-perturbative contexts. Participants will discuss innovative techniques and their implications for understanding complex systems.

This track will examine the role of effective field theories in simplifying complex physical systems and their applications in particle physics. Contributions will highlight both theoretical developments and experimental validations.

This session will focus on the theoretical underpinnings of supersymmetry and ongoing experimental searches for supersymmetric particles. Participants will discuss the implications of supersymmetry for our understanding of fundamental interactions.

This track will investigate the role of anomalies in quantum field theory and their impact on vacuum structure and particle phenomenology. Researchers will present new findings and theoretical perspectives on these critical topics.