Latest Articles for Experimental Techniques

An overview of Floquet theory’s role in analyzing periodic systems.

A novel approach for analyzing triplet data in particle physics experiments.

Examining how charged impurities behave in Bose-Einstein condensates.

Study of NaYbS2 reveals complex magnetic behaviors and potential applications.

Exploring the intricate world of baryons and their properties.

Research reveals key mechanisms behind lepton pairs in heavy-ion collisions.

Exploring unusual grain growth in materials at room temperature under high pressure.

This article explores the unique structures formed by hyperons in atomic nuclei.

A look into the magnetic and electric properties of electrons.

Scientists search for diphoton events to find new particles and forces.

A look at methods for preparing quantum critical states in complex systems.

Study reveals intriguing magnetic properties of BaNbIrO, a new quantum spin liquid.

CeRhAs showcases a rare blend of superconductivity and magnetism at low temperatures.

A closer look at the unique magnetic properties of CoNb2O6.

Exploring the implications and search for fractionally charged particles in particle physics.

New designs in neutron transport aim to improve experimental outcomes in various fields.

This study investigates charge distribution in simple atomic nuclei using electron scattering data.

Study reveals properties of BaIrGe, a promising superconducting material.

A detailed overview of laser cooling methods for atoms in traps.

A closer look at P3HT's role in electronic devices and its molecular dynamics.

Researchers improve barium atom imaging, aiding neutrino decay studies.

Researchers test quantum behaviors through neutral pseudoscalar mesons and new frameworks.

Learn how dopants interact in magnetic structures and their surprising behaviors.

Research on supersolids unveils new insights into quantum mechanics and unique states of matter.

Examining techniques and data to enhance particle physics understanding.

Exploring the unique features and importance of halo nuclei in nuclear physics.

A workshop in Dubrovnik explores new findings in Higgs boson studies.

Study reveals how atom density and connections impact superfluid behavior.

Investigating rare particle decays to uncover potential new physics beyond the Standard Model.

Investigating altermagnetism in heavy fermion systems reveals potential for advanced spintronic applications.

Exploring the role of Rashba splitting in advanced spintronic applications and materials.

Exploring isotope production and isomeric ratios in nuclear physics.

Research on MoGa reveals complex behaviors and unexpected phenomena in superconductors.

Research reveals how sound interacts with shear layers in high-speed fluids.

Exploring fluid interactions and their impact on various applications.

Examining how rubidium atoms and KRb molecules interact at ultracold temperatures.

Investigating HNLs could answer key questions about neutrinos and the universe.

Investigating the unique magnetic properties of KBaCr(PO4)2 reveals complex interactions.

A glimpse into the dynamics of light and matter interactions through photoionization.

A look into the decay processes of heavy baryons, focusing on two-pion emissions.