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Tag High Energy Physics – Phenomenology

Recola: Advancing Perturbative Computation in Particle Physics

Particle physics, a fascinating field studying the fundamental building blocks of the universe and the forces governing them, relies heavily on sophisticated computational tools to make sense of experimental data. In this article, we explore the groundbreaking research presented in… Continue Reading →

The Molecule Picture of the Pc(4380): Understanding the Coupled Channel Analysis

When it comes to understanding complex topics, scientific research papers can often present a challenge. However, in a groundbreaking study published by Yuki Shimizu, Daiki Suenaga, and Masayasu Harada, titled “Coupled channel analysis of molecule picture of Pc(4380),” the researchers… Continue Reading →

Exploring the Z-peaked Excess and its Implications for Supersymmetry

Supersymmetry, also known as SUSY, is a theoretical framework that seeks to extend our understanding of the fundamental particles and forces in the universe. It proposes the existence of new particles, known as supersymmetric particles, which could solve many of… Continue Reading →

Unlocking the Electroweak Physics: Exploring the hh+2j Channel at the LHC

EurekAlert! – In a groundbreaking study, a team of researchers led by Matthew J. Dolan, Christoph Englert, Nicolas Greiner, and Michael Spannowsky from renowned universities and research centers have delved into the exploration of the hh+2j channel at the Large… Continue Reading →

VINCIA Parton Shower: Bridging the Gap in Particle Physics

Particle physics, the study of the fundamental building blocks of the universe and their interactions, is a field shrouded in complexity. However, in recent years, researchers have made significant progress in developing sophisticated tools to better understand these particles and… Continue Reading →

Technicolor in the LHC Era: Exploring the Enhanced Production of Technipions

Technicolor in the LHC Era is a fascinating research article authored by R. Sekhar Chivukula, Pawin Ittisamai, Jing Ren, and Elizabeth H. Simmons. Published in 2023, this study delves into the constraints and implications of the light technipion state predicted… Continue Reading →

Unraveling Cladogenesis: Exploring the Connection Between Baryons and Dark Matter

In this article, we delve into a fascinating research study named “Cladogenesis: Baryon-Dark Matter Coincidence from Branchings in Moduli Decay.” Conducted by Rouzbeh Allahverdi, Bhaskar Dutta, and Kuver Sinha, this research addresses the common origin of baryons and dark matter… Continue Reading →

Exploring Spin Orientation Parameters in e+ e- Collisions at SM Thresholds

In this article, we delve into the fascinating world of spin orientation parameters in the Standard Model (SM) and their implications for various processes involving the Z boson. The research paper titled “Symmetries and similarities for spin orientation parameters in… Continue Reading →

Supergauge Interactions and Electroweak Baryogenesis: Exploring the Dynamics of Supersymmetric Universe

Supergauge interactions and electroweak baryogenesis constitute two important pillars of theoretical physics research. Recently, a remarkable research paper titled “Supergauge interactions and electroweak baryogenesis” by Daniel J. H. Chung, Bjorn Garbrecht, Michael. J. Ramsey-Musolf, and Sean Tulin has shed new… Continue Reading →

Astrophage of Neutron Stars from Supersymmetric Dark Matter Q-balls: Explained

What are Q-balls? Q-balls are stable non-topological solitons that could potentially exist as a form of dark matter in the universe. In the gauge-mediated model of supersymmetry breaking, these Q-balls are hypothesized to have formed during the early stages of… Continue Reading →

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