Latest Articles for Theoretical Models

Recent findings in B meson decays hint at possible new physics.

Scientists investigate dark matter models to deepen cosmic understanding.

Scientists investigate a new particle using the Large Hadron Collider.

Researchers investigate scalar partners to understand fundamental particles and interactions.

Examining the Scalar Weak Gravity Conjecture's impact on our understanding of cosmic forces.

Exploring the intriguing concept of extra dimensions in physics.

A look at the search for dark matter associated with Higgs boson decays.

A look at the behavior of scalar and fermion systems in physics.

This study reveals how particle decays can hint at new physics.

This study investigates Majorana neutrinos using data from high-energy particle collisions.

Examining how particle scattering changes in dense nuclear environments.

A study on how matter changes forms under extreme conditions.

Research reveals new excited states and interactions of the S isotope.

Research sheds light on exotic particles made from charm and bottom quarks.

Study reveals how acceleration impacts Unruh-DeWitt detectors interacting with spinor fields.

The lightly bound Skyrme model offers new insights into atomic nuclei.

Recent experiments reveal surprising differences in symmetry energy and neutron skins.

This article examines forward-backward correlation in particle physics during heavy-ion collisions.

Exploring the impact of dark matter on cosmic structures and its mysteries.

Exploring how particle loss affects quantum systems through the Liouvillian skin effect.

Investigating the Zee-Babu model to understand neutrinos and their mass.

Researchers are uncovering new insights into the Higgs boson and its properties.

Researching nucleon resonances reveals insights into strong interactions and missing resonances.

Exploring the effects of hot nuclear matter in neutron star mergers.

New insights into the magnetic properties of Sr(TiO)Cu(PO) revealed through advanced methods.

New methods improve predictions for quarkonium production in high-energy collisions.

This article examines acoustic black holes and their role in studying Hawking radiation.

Exploring how majorons may generate gravitational waves in the early universe.

A look into skyrmions and their significance in understanding nuclear matter and neutron stars.

Study of neutron stars reveals secrets about matter under extreme conditions.

Neural networks enhance the accuracy of predicting nuclear masses, bridging gaps in theoretical models.

This article explores the Higgs field's role in inflation and early Universe theories.

This research explores the unique properties of P-wave bottom baryons and their internal structures.

This study explores the impact of memory effects in Kadanoff-Baym equations and HF-GKBA.

A look at the differences in measuring the universe's expansion rate.

Recent findings shed light on the properties and behaviors of singly charmed baryons.

Exploring the relationship between pion behavior and gauge theories in particle physics.

Examining how particles are bound together through Effective String Theory and related models.

This article explores the various shapes and behaviors of atomic nuclei.

A study on quantum chaos through out-of-time-order correlators in the sparse SYK model.