Latest Articles for Physics Research

Exploring the interplay of magnetic topological insulators and superconductors for future technology.

A study on how impurities act in various models when excited.

Examining the unique superconducting properties of UTe under varying conditions.

Insights into fixed points and their role in quantum mechanics.

VGa exhibits interesting superconducting properties at low temperatures and under varying conditions.

Study reveals how crystal shape impacts magnetism in CePdAl.

Researchers unveil T-MoTe's potential in quantum computing through unique superconducting states.

Examining energy conversion and control in double quantum dots using Maxwell's demon.

Researchers are using quantum algorithms to study electron behaviors in complex materials.

New framework improves quantum neural networks for analyzing complex data with symmetries.

A look at how TWA helps analyze open quantum systems effectively.

Study reveals how driving protocols impact Majorana modes for quantum computing.

This study reveals the relationship between classical and quantum Lissajous figures.

Examining how measurement rates influence quantum system behavior and entanglement.

A look into how chaos influences quantum systems and their properties.

Examining qubit interactions through correlation functions in integrable quantum circuits.

Research on layered materials reveals unique electronic properties and possibilities for future technologies.

New insights on Higgs boson pairs enhance understanding of particle masses.

A look into the dynamics of quantum walks and their applications in quantum networks.

Researchers work on a generalized volume operator for quantum gravity analysis.

Examining how waves behave under unique instabilities and their implications.

A look at how autotuning enhances mixed-kernel SVMs for data analysis.

Exploring the memory effects caused by gravitational waves on small objects.

New method improves understanding of complex quantum states and systems.

Discover how light and matter interact in cavity QED materials.

Researchers use machine learning to identify materials for high-temperature superconductivity.

Research explores Schrodinger cat states in quantum systems within nanocavities.

A new method improves parameter estimation in quantum systems.

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

Methods to estimate potentials in neutron-proton scattering interactions.

Exploring the potential of Bose-Einstein condensates in optical cavities for quantum applications.

Exploring how quantum systems behave during phase transitions and their link to entropy.

Exploring dark states and integrability in central spin models.

Research reveals how complex magnon interactions influence device performance in computing.

Understanding the role of KD distributions in identifying quantum states.

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

New methods improve identification and analysis of tau leptons in particle physics.

J-PET scanner improves PET by measuring photon polarization for better diagnostics.

This study reveals how container shapes influence particle movement and distribution.

Research unveils new properties of black holes with scalar fields.