Latest Articles for Condensed Matter Physics

Research sheds light on quasielectrons and their behavior in fractional quantum Hall systems.

Scientists study dipole condensates to reveal new physical phenomena.

Exploring unique properties and applications of topological skyrmion phases in modern technology.

How temperature affects electronic behaviors in two-dimensional materials.

Research reveals metal-insulator transitions in TMDCs, shedding light on unique electronic properties.

Investigating the effects of chiral anomalies in complex particle systems.

This article discusses the unique shear viscosity behavior in graphene compared to traditional fluids.

New study reveals complex behaviors in non-Hermitian quasicrystals and their transitions.

Exploring complex behaviors and properties in Kitaev-Heisenberg systems.

Examining quantum phases in spin-1 Bose-Einstein condensates under specific conditions.

Explore how voltage and reflection influence current in superconducting weak links.

An overview of symmetries and their impact on modern physics theories.

Research expands on polarons, highlighting spin-orbital bipolarons and their impact on materials.

Research on DTN reveals unique magnetic transitions under applied pressure.

Researchers study unique behaviors of two-dimensional Fermi gases with spin-orbit coupling.

Study reveals significant findings on plasmons in high-temperature superconductors.

Researchers study unique magnetic behavior in GdV Sn with temperature effects.

Exploring how laser light influences magnetization in unique materials.

Researchers examine chiral spin liquids and their potential in quantum technologies.

Study reveals complex behaviors of UTe under various conditions.

This study examines how initial states affect the dynamics of spinor Bose-Einstein condensates.

This article explores phases of SU(3) spins in chiral spin liquids on kagome lattice.

A look at Matrix Product States and their importance in quantum systems.

Scientists study electron behavior in carbon nanotubes with a focus on Wigner crystals.

A look into effective field theory and symmetry breaking in non-equilibrium systems.

Research reveals new insights into solitons in spin-orbit-coupled Bose-Einstein condensates.

Research on how phonons and pseudospins interact under magnetic fields reveals new material properties.

Examining how edge states behave when linked to their environment.

Discover the unique properties and potential of bi-layer Kagome materials in modern physics.

A method to create stable spin states using trapped ultracold atoms and Bose-Einstein condensates.

Recent findings on interlayer excitons reveal unique properties and potential applications.

Study of chaotic behavior in a charged SYK model with unique boundary conditions.

Researchers enhance understanding of three-body loss in ultracold gases.

New findings in the 1D Hubbard model reveal unique particle interactions and phase transitions.

A look into the superconducting properties of LaCuSb2 and its unique features.

Examining the link between fermionic ground states and entanglement entropy.

Analyzing how atom losses impact hard-core boson dynamics in cold atom experiments.

Research examines magnetic materials using high pressures and strong magnetic fields.

A look into the behavior of particles in Fermi liquids.

A look into non-Hermitian systems and their impact on quantum phase transitions.