Latest Articles for Experimental Techniques

Researchers develop robust parameters for studying topological order in mixed states of fermion matter.

Researchers investigate how cosmic structures affect the Cosmic Microwave Background.

Exploring advanced materials with unique electronic properties and their potential applications.

This article examines B-mesons and their role in understanding CP violation.

Studying edge singularities and their implications in fermionic interactions.

A look into doubly charged scalars and their potential in energy production.

Research reveals the resilience of Nd-based pyrochlore magnets in varying conditions.

Research unveils crucial findings on particle behavior in high-energy collisions.

This study examines how the Delta particle transitions into a nucleon through electromagnetic interactions.

Integrating classical chaos concepts to manipulate ultracold quantum systems effectively.

New light source enhances time-resolved experiments for studying quantum materials.

Examining how DMI influences magnetic properties in iron germanium nanoparticles.

Explore the function and significance of pulsed electron guns in research.

Scientists study the anti-Pfaffian state using quantum point contact techniques.

A look into the role of interference in molecular processes.

A new mirror setup enhances data collection from levitated particles.

Research improves understanding of cosmic ray behavior through beryllium isotope measurements.

Learn how quantum reservoir probing aids in identifying quantum phase transitions.

Examining how cyclobutanone reacts when exposed to light.

Research reveals how temperature impacts the unique properties of Ca3Ti2O7.

Researching axions as a potential key to understanding dark matter.

Researchers study unique CSLs that could impact future quantum technologies.

A look into how ARPES reveals electronic structure in various materials.

Discover the latest methods for measuring quenching factors in dark matter research.

New developments enhance NaI(Tl) detector capabilities for dark matter studies.

Research reveals new excited states of nitrogen, enhancing the understanding of nuclear structure.

Research using ATLAS detector aims to find new high-mass particles beyond the Standard Model.

New techniques enhance performance of flat and magnetized beams in particle accelerators.

This article explores quarkonium's role in understanding particle interactions and the strong force.

A study on phase dynamics in parallel 1D Bose gases during time-of-flight measurements.

Researchers present a novel approach to identify errors in protein models.

Research explores potential new particles to explain dark matter.

Examining the Minimal Left-Right Symmetric Model in particle physics.

Unraveling the mysteries of beta decay and its implications on physics.

A new model enhances accuracy in voltage-clamp experiments for better cellular insights.

A novel technique using atom interferometry seeks precise measurement of a fundamental physics constant.

Research reveals complex behaviors of ultracold atoms in optical lattices.

Research reveals key insights into metal-insulator transitions using cold atom systems.

Investigating spontaneous edge currents in unique superconducting materials.

Research explores unique arrangements of dipolar atoms in multilayer setups.