Tag High Energy Physics – Phenomenology

Exploring Gauge-Independent Approaches to Resonant Dark Matter Annihilation

The quest to understand dark matter (DM) has captivated physicists for decades, leading to a multitude of theories and methodologies. A recent study offers a fascinating and innovative approach to analyzing resonant dark matter annihilation, aiming to tackle complexities that… Continue Reading →

The Ongoing Journey of Higgs Particle Physics and Its Untold Stories

The realm of particle physics is as thrilling as the latest blockbuster movie, full of intricate plots and unexpected twist. Perhaps no narrative captivates our scientific imagination more than the story of the Higgs boson, the elusive particle that helps… Continue Reading →

Understanding Upgoing ANITA Events and Their Connection to CPT Symmetry in Dark Matter

Neutrinos may be one of the smallest constituents of our universe, but the implications of their behavior can be vast and challenging to comprehend. Recent research on upgoing ultra-high energy shower events observed by the Antarctic Impulsive Transient Antenna (ANITA)… Continue Reading →

Understanding Brout-Englert-Higgs Theory and Its Role in Quantum Field Physics

What are the Foundations of Brout-Englert-Higgs Physics? The Brout-Englert-Higgs (BEH) theory, central to our understanding of particle physics, lays the groundwork for explaining how particles acquire mass. This field-theoretical framework combines concepts from quantum mechanics and relativity, establishing a robust… Continue Reading →

Resumming Energy Logarithms and Understanding the BMS Equation in Jet Evolution

The world of quantum chromodynamics (QCD) is a complex one, filled with intricate details that govern the behavior of particles at high energies. Recently, significant advancements have been made in understanding double non-global logarithms in this field. This article delves… Continue Reading →

Exploring Hot QCD: Understanding Polyakov Loop Modeling

In the realm of quantum chromodynamics (QCD) at finite temperature, the concept of the Polyakov loop stands as a pivotal mechanism for comprehending the behavior of hot QCD. This article delves into the intricacies of Polyakov loop modeling and its… Continue Reading →

Discovering Stau Coannihilation: Unveiling SUSY Secrets at the LHC

In the ever-evolving realm of particle physics, the quest to unravel the mysteries of supersymmetry (SUSY) has long been a captivating journey. Recent research delves into the intriguing realm of Stau coannihilation, compressed spectrum, and the potential for SUSY discovery… Continue Reading →

Unlocking the Mystery of Bs to mu mu gamma Decay: Implications for Flavour Data Discrepancies

Recent advancements in particle physics have brought to light a fascinating exploration of the Bs to mu mu gamma decay process. This intricate phenomenon offers a unique opportunity to delve into a broader spectrum of effective operators compared to its… Continue Reading →

The VINCIA Antenna Shower for Hadron Colliders: Advancing QCD Initial- and Final-State Showers

If you’re interested in the fascinating world of particle physics and hadron colliders, you’ll be excited to learn about the groundbreaking research on the VINCIA Antenna Shower. This research, conducted by Peter Skands, Nadine Fischer, Stefan Prestel, and Mathias Ritzmann,… Continue Reading →

Impeded Dark Matter: A New Scenario in Understanding the Complexities of Dark Matter

Dark matter, the elusive substance that makes up a significant portion of our universe, has baffled scientists for decades. As researchers continue to explore different models and scenarios to decipher its nature, a recent research article titled “Impeded Dark Matter”… Continue Reading →

« Older posts

© 2024 Christophe Garon — Powered by WordPress

Theme by Anders NorenUp ↑