Latest Articles for Theoretical Models

Researchers analyze lepton-nucleus scattering to deepen insights into nuclear interactions.

Exploring how braneworld models explain our universe with extra dimensions.

A fresh approach to understanding energy levels in complex physics systems.

Updated hadron lists improve particle physics research and heavy-ion collision models.

Exploring the role of hyperons in neutron star dynamics and their interactions.

Scientists investigate unexpected results from the MiniBooNE experiment, exploring potential new particles.

Exploring recent advancements in topological phases and their implications.

A look at how renormalization shaped physics over the decades.

This study looks into the shapes and movements of barred galaxies.

Analyzing the effects of polarized neutrons and weak nuclear interactions.

Examining the decay processes of charmed baryons to understand fundamental forces.

BESIII reveals new insights into light mesons and their interactions through precise data collection.

Recent findings challenge existing theories in particle physics, hinting at new particles.

A close look at heavy WIMPs and their role in dark matter research.

MATBG reveals unique electronic properties and superconductivity potential.

Research shows how patterns emerge in Bose-Einstein condensates through atomic interactions.

An overview of meson decays and their significance in particle physics.

Study reveals intricate details of the isoscalar giant monopole resonance in atomic nuclei.

Exploring the role of neutrinos in shaping the universe.

Research explores the impact of hot dark matter using weak lensing and CMB data.

A look into pp-waves and their effects on time delays in gravitational fields.

A new model sheds light on the Moore-Read state and its potential uses in quantum computing.

Introducing tools to link theoretical models of new physics with experimental data.

Exploring superspin chains and their significance in physics and quantum computing.

Exploring the formation and implications of global monopoles in the two-Higgs-doublet model.

CMS experiment reveals potential signal indicating a new boson at 95.4 GeV.

Researchers study surprising behaviors in small particle systems during heavy ion collisions.

Exploring nuclear matter and the role of the parity-doublet model in extreme conditions.

Investigating a novel approach to understanding dark matter's role in the universe.

New models explore stability of the weak scale in high energy physics.

This article explores B mesons and their decay processes through various experimental findings.

Investigating diquarks to explain anomalies in particle physics.

Examining the limits of understanding quantum gravity in our universe.

Research on dark matter and neutrino masses through scotogenic models offers new insights.

Research on neutron-rich nuclei sheds light on element formation.

Scientists are redefining gravity through a fresh theoretical framework.

Exploring parton distribution functions for muons in high-energy particle physics.

Research reveals distinct shape behaviors in Mo and Ru isotopes.

This study explores how chiral condensates aid in the cosmic bounce process.

A look into the unique properties of the supersymmetric SYK model and its implications.