Latest Articles for Experimental Research

This study investigates how liquids fill microcavities in Lab-on-a-Chip technology.

CP violation helps explain the matter-antimatter imbalance in our universe.

Key insights into nucleon structure and interactions through form factors.

Research investigates quantum entanglement through neutral mesons and Bell's inequalities.

A new approach uses quantum kernels to improve data classification methods.

Investigating the role of scalars and pseudoscalars in modern physics.

A look at ultracold Bose gases and their unique quantum properties.

Research on kaonic atoms reveals complex interactions in nuclear environments.

Research sheds light on K emissions from He-like oxygen in high-energy environments.

A new method improves data processing in particle physics by focusing on moments.

Research delves into Higgs boson decays and new particle theories.

Scientists investigate Higgs interactions for breakthroughs in particle physics.

Exploring the role of neutrinos and electrons in particle physics.

Exploring lepton flavor violation and its significance in modern physics.

Study reveals quantum effects of muons in unique material Zn-Barlowite.

New findings on quantum oscillations reveal insights into electronic materials and quasiparticle behavior.

Researching the properties and behaviors of atmospheric neutrinos with advanced detectors.

This study reveals how electric fields guide cell movements and interactions.

CoTra offers insights into classifying quantum phases and correlations.

This research delves into pion polarizabilities and their significance in particle physics.

Exploring the relationship between gravity and electromagnetism through new theories and experiments.

Study reveals stripe formation in layered superconductors under magnetic fields.

Investigating top quark production reveals insights into fundamental particle interactions.

A model reveals how bacterial patterns change during growth phases.

Research aims to understand unique tetraquarks produced through light interactions.

Research advances our understanding of neutrinos and their role in the universe.

Investigating how thermal fluctuations influence fluid behavior in small systems.

Research sheds light on superconductivity differences in cuprate materials.

Researchers study quantum spin liquids and their implications for future technologies.

Investigating the Odderon and its role in high-energy particle interactions.

A new method improves photon-counting accuracy in optical communication.

A look at the infinite-range transverse-field Ising model and its implications.

Researchers investigate the unique behavior of odd-even effects in neutral atomic quantum gases.

Research reveals how droplet behavior in fluids mimics quantum mechanics.

Recent tests strengthen support for the Pauli Exclusion Principle in particle physics.

Investigating axions as a candidate for dark matter using superconducting resonators.

Research reveals how proton irradiation alters superconducting properties in YBCO thin films.

Researchers investigate nAMSB to uncover hidden particle behaviors in physics.

Vacuum pair production reveals key insights into quantum electrodynamics and particle interactions.

New resonator design enhances axion search sensitivity by reducing mode mixing.