Latest Articles for Scientific Discovery

Researchers find ways to better measure entangled quantum particles through filtering techniques.

Explore the role of CP violation in particle physics.

Exploring the connections between gravitational waves and the real-scalar extended Standard Model.

Scientists investigate the unique properties of tetraquarks and their interactions.

Explore the explosive endings of stars and their cosmic impact.

An overview of singly-heavy baryons and their role in understanding matter.

Researchers study disordered spin chains and their impact on entanglement.

Studying top quark pairs provides insights into early universe conditions.

Exploring dark matter, its potential forms, and how scientists aim to detect it.

Discover how effective Hamiltonians make complex quantum systems easier to study.

A look at how Feynman tackled infinities in quantum electrodynamics.

Rare decays offer insights into fundamental particle interactions and the limits of current physics.

Tetraquarks challenge our ideas of particle physics with their unique structures.

Explore the fascinating world of mesons and their decays in particle physics.

Explore the unique interactions of fermions when observed and their surprising dynamics.

This article explores how imaginary factors affect particle interactions in physics.

Researchers leverage quantum simulations to study supersymmetry and its complexities.

Early black holes surprise scientists with their existence and formation.

Examining rare decays reveals insights into particle interactions and potential new physics.

Scientists study ridge structures in proton collisions to uncover new particle interactions.

Discover how conformal defects influence physics and materials science.

A fresh approach to understanding the origins of spacetime and mass.

A look into how heavy mesons decay and the impact of helicity form factors.

Recent findings reveal pulsating stars in binary systems, enhancing our knowledge of stellar behavior.

Discover how particles transition from being stuck to moving freely in messy environments.

Unpacking the complex nature of vacuum decay and its impact on the universe.

Discover how particle mass changes shape the universe.

A fresh look at gravity aims to eliminate singularities.

Exploring the fascinating world of quantum interference and ultracold atomic collisions.

Scientists study baryon decays to explain matter-antimatter imbalance.

Discover the connection between collapsing stars and cosmic signals.

Researchers explore CP symmetry and its implications in 4D SU(2) Yang-Mills theory.

Discovering the secrets of hadrons through Double Deeply Virtual Compton Scattering.

New methods in measuring quantum entanglement using randomized techniques show promising results.

Discover how spin distributions of fission fragments influence nuclear reactions and energy production.

Spin ice reveals unique magnetic behaviors with potential real-world applications.

A fresh method enhances our grasp of particle physics.

Discover the intriguing role of axions in shaping our universe's inflation.

Scientists are on a quest to detect gravitational waves from supernova explosions.

Physicists investigate the link between baryogenesis and dark matter in the universe.