Physics

A look at the TURBO project improving proton therapy efficiency.

Research reveals insights into light amplification in Free Electron Lasers.

Improving measurements of electron beams in advanced research facilities.

Automating beamline alignment improves research efficiency and accuracy in scientific studies.

Techniques for improving niobium SRF cavities in particle accelerators.

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

A look into resonance's role in controlling particle behavior.

Research focuses on managing dark current in RF electron guns for improved performance.

A study investigates how the ketogenic diet affects neuronal activity and seizure management.

A look into how directed simplicial complexes reveal complex interactions.

This paper investigates the impact of simplicity bias on one-dimensional dynamical systems.

Exploring the behavior and formation of jellyfish blooms in the ocean.

Exploring how reputation and randomness influence cooperation in social networks.

An analysis of the conjunction fallacy in decision-making and its implications.

A study on how resetting oscillators can promote system synchronization.

A fresh system to rank cycling teams based on rider placements.

Skyrmions may transform how we design faster, efficient electronic devices.

A new method enhances biological imaging without labels using holography and THG.

AirPhyNet blends physics and data for better air quality forecasts.

New coupler designs aim to improve quantum computing performance and reduce errors.

New metasurfaces that control light using electrical signals offer promising applications in optics.

Memristors combine storage and processing in one device, shaping future tech.

A new approach combines Kerr and electro-optic effects for efficient frequency combs.

Research improves durability of ion traps using innovative metal stacks.

This study reveals metal content and star formation in the early universe.

A look at how gas and matter shape cosmic structures.

Research reveals new pulsating sdB stars and their unique properties.

Study examines gas movements in the early galaxy CSWA13.

This study examines how gas and magnetic fields interact in FS CMa stars.

Research reveals how cosmic rays and other factors shape hydrogen and carbon in space.

Study reveals how dust survives in supernova remnants over time.

Researchers discover old stars, reshaping ideas about the Milky Way's formation.

Researchers develop TEAMS for better predictions of extreme weather events.

Recent advancements in deep learning improve climate models and weather predictions.

Research using snow poles reveals insights into snow depth and density.

Two methods for recovering ocean wave profiles from seabed measurements are compared.

A new method uses diffusion models to improve weather forecasting accuracy.

A look into how ocean floor shape affects wave dynamics.

Exploring how rotation shapes clouds and climate on Earth and beyond.

Understanding light behavior in complex materials enhances technology in various fields.

A new method enhances control over ion interactions in quantum systems.

A look at using Rydberg atoms for electric field measurement methods.

This article explores the significance of trapped ions in quantum technologies.

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

Researchers observe unique state switching in Rydberg gases, revealing new quantum dynamics.

Exploring the impact of strong interactions on quantum behavior using interferometers.

A look into the role of interference in molecular processes.

New techniques improve accuracy and stability of optical lattice clocks.

Examining new methods for studying light-matter interactions in different systems.

A look at how quantum mechanics and classical physics intersect in large objects.

Study reveals a THz-assisted method for investigating silica matrices without damaging biomolecules.

Researchers harness quantum mechanics for sensitive measurement tools using ultracold atoms.

Quantum batteries may change how we store and use energy.

Collective transition quenching improves control over quantum systems for various applications.

Examining the interactions of quantum rotors within Bose-Einstein condensates.

Research focuses on polymer electrolytes to enhance solid-state battery performance and safety.

Exploring how charged polymers enhance DNA sequencing technologies.

Morphogen gradients are essential for proper neural tube formation and cell positioning.

Exploring how sponge chambers optimize water pumping and filtering.

A study reveals how obstacles impact zebrafish social interactions and swimming patterns.

A look at how information theory measures and processes data.

Exploring the organized movement of active materials in nature and their implications.

Introducing a framework for studying complex biological interactions using optimal transport theory.

Researching contact lenses for improved eye medication delivery systems.

Exploring the organized movement of active materials in nature and their implications.

A new model simulates growth and movement of epithelial cells in tissues.

Combining models reveals new ways to study disease dynamics in populations.

This study uses models to analyze cell movement in experiments and predict behavior.

Discover the new ibaf-graph feature for dynamic system visualization.

Exploring how cells interact on curved surfaces can enhance tissue engineering and understanding of biological processes.

Study reveals how simple rules lead to complex patterns in various systems.

An overview of complex adaptive systems and their significance in various fields.

Integrating classical chaos concepts to manipulate ultracold quantum systems effectively.

Analyzing chaotic behaviors in a system of coupled pendulums with changing lengths.

Researchers develop TEAMS for better predictions of extreme weather events.

New methods enhance magnetization dynamics for efficient memory applications.

This article delves into hitting distributions within random dynamical systems.

Discover how piecewise-linear maps lead to complex behavior and chaos.

This article examines how geometry influences the behavior of frictional systems.

Research connects turbulent fluid dynamics to black hole physics, revealing new insights.

PyEmbed enhances data sharing in quantum chemistry, boosting research efficiency.

Study reveals how cavities influence chemical reactions through temperature and light.

New methods improve molecular simulations through active learning and normalizing flows.

An insight into how quantum systems behave in thermal environments.

A new method improves the generation of drug-like molecules with optical isomerism.

Exploring how cDFT enhances our understanding of fluid interactions and solvation.

A new model enhances accuracy and efficiency in predicting electron density.

Study reveals glass structure changes and behaviors when heated.

Researchers find a way to guide light through opaque materials using a core structure.

A look at the relationship between mass and energy through historical and modern lenses.

This article examines the effects of loads on elastic discs coated with rods.

Rough roads affect cyclists' comfort and performance due to vibrations and resistance.

New research reveals how disorder impacts sound behavior in acoustic crystals.

Memristive devices are changing how we understand data storage and computation.

An exploration of the interplay between gravity and electromagnetism in the universe.

This study examines nonlinear RLC circuits, focusing on diode effects and circuit behavior.

New methods improve simulations of active matter by reducing density fluctuations.

MeshAC creates adaptive 3D meshes for accurate material simulations at multiple scales.

Assessing uncertainty in neural networks for improved scientific predictions.

Improving wavelet transforms enhances analysis of complex spherical data across various fields.

A new tool for easier calculations in cosmology.

Study compares models for predicting positron production in cancer treatment.

This article discusses methods to study particle movement in limited environments.

This article examines the dynamics and applications of nanomagnet vertices in technology.

This article examines the role of diffuse axion background in understanding cosmic events.

A look at how gas and matter shape cosmic structures.

Research aims to refine understanding of cosmic backgrounds and the universe's structure.

Exploring the unseen forces shaping our universe's growth and structure.

Investigating the connection between cosmic strings and axions in dark matter research.

Research reveals how cosmic rays and other factors shape hydrogen and carbon in space.

Scientists study galaxy clusters to learn about dark matter properties and interactions.

SkyMapper's DR4 offers extensive data on celestial objects across the southern sky.

Discover how relationships evolve over time with temporal networks.

New methods improve shape study on curved surfaces.

Learn how the Parker Solar Probe analyzes whistler waves in the solar wind.

This method helps find hidden patterns in noisy data.

A new method enhances exploration of the three Higgs doublet model in particle physics.

A look into how directed simplicial complexes reveal complex interactions.

A new method improves surrogate modeling accuracy using physical principles.

New methods enhance analysis of aqueous sulfuric acid using machine learning techniques.

Honoring Ralph Kenna's influence on phase transitions and critical phenomena.

A deep look into the mysteries of glass behavior during cooling.

Study reveals dynamics of thermal avalanches in spin chains and disordered environments.

Study explores QGS in 3D superconductors using MoTiN films' unique electrical properties.

Exploring the interaction between disorder and topological properties in materials.

Exploring the interaction between aging and driving in complex systems.

Examining how glass deforms and fails when subjected to stress.

Discover the unique properties of amorphous quantum magnets and their potential applications.

Research reveals how heat and cooling impact planet movement in gas disks.

Scientists continue to investigate the possible existence of Planet Nine beyond Neptune.

Exploring the unique properties of the XO-2 binary star system and its planets.

A look into the evolving protoplanetary disk around the star HD98922.

JWST reveals crucial details about planet formation in the AS 209 disk.

Investigating the atmospheres and chemistry of brown dwarfs in the cosmos.

A new tool enhances methods for finding exoplanets beyond our solar system.

Study reveals gas and dust activity in far-off comets.

A look at how ASEP helps study particle behavior in complex systems.

This article explores degenerate soliton groups and their significance in nonlinear optics.

Explore the fascinating world of the tetrahedron equation and its applications.

Exploring the significance of random matrices in science and mathematics.

A detailed look into how vortices behave in fluid dynamics.

Exploring the patterns and stability of water waves through mathematical models.

Exploring the significance of Yangians in algebra and their applications in physics.

A study of cluster algebras and their effects on dynamical systems.

Research sheds light on how turbulence interacts with free surfaces in water.

Study reveals how droplets behave on viscoelastic films in various conditions.

This article examines how inertia and slip influence liquid film stability on fibres.

A framework that merges Lagrangian and Eulerian data for improved system state estimates.

Research reveals complex interactions in the coalescence of liquid drops.

An overview of how less thick fluids interact with thicker ones.

New models enhance the study of sediment dynamics in rivers and open channels.

Researchers develop a model for better tracking soot behavior in combustion.

Exploring how the Bass model reveals innovation adoption in networks.

Examining the advancements and questions surrounding human life in space.

A personal look at confusing emotions and anxiety without a clear cause.

A look at how the universe's expansion might affect fundamental constants.

A look at electron spin and its effects in quantum mechanics.

Examining how acceleration affects our view of vacuum and particles.

Guesswork is vital for scientific theories and digital systems.

A look into holographic dark energy and its role in the universe's expansion.

Study the impact of electric charge parameters on black hole thermodynamics.

Exploring the connection between black holes and dark fluids like Chaplygin gas.

Research aims to refine understanding of cosmic backgrounds and the universe's structure.

A look at black holes, their jets, and recent findings about M87*.

Exploring how memory alters interactions in infrared finite scattering theory.

Scientists investigate the blend of quantum mechanics and gravity at tiny scales.

A look into dark energy and dark matter's roles in the cosmos.

Exploring the unseen forces shaping our universe's growth and structure.

Discover how scientists study Earth's magnetic field using satellite data and advanced methods.

The Vigil mission aims to monitor solar wind effects on Earth from space.

New models improve understanding of carbon dynamics in climate science.

This article examines how geometry influences the behavior of frictional systems.

Learn how celestial bodies influence tree sap flow and health.

Solar eclipses affect cloud patterns and local weather significantly.

Exploring the behavior of inertia-gravity waves in geophysical vortices.

Exploring the formation of chondrules and their significance in the Solar System.

Investigating the elusive nature and decay of neutrinos from cosmic sources.

This article examines the role of diffuse axion background in understanding cosmic events.

A look at black holes, their jets, and recent findings about M87*.

Scientists investigate the origins of 60Fe nuclei found in cosmic rays.

Observations reveal new insights about asynchronous polar systems and their behaviors.

Investigating X-ray emissions in semi-detached binary star systems reveals key stellar relationships.

Study reveals insights into brightness variations and color shifts in blazars.

A look into starburst galaxies and the role of cosmic rays in their evolution.

Research on neutrinos reveals their unique properties and potential influence on fundamental physics.

This article examines the role of diffuse axion background in understanding cosmic events.

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

A new software tool improves the study of parton densities in particle physics.

CP violation in B decays reveals gaps in modern physics theories.

Research at ATLAS aims to identify new particles linked to supersymmetry.

Recent studies shed light on Higgs boson connections to W and Z bosons.

New detector designs improve antineutrino detection for safer nuclear operations.

New theories are essential to address gaps in our understanding of fundamental particles.

Recent findings in two-color QCD shed light on sound velocity in neutron stars.

New techniques for efficient wave-packet creation in quantum simulations of particle interactions.

A look into the behavior of spin liquids and orphan spins in magnetic materials.

A look into the complex nature of dark matter and its candidates.

This study explores glueballs and their potential role in dark matter.

Investigating hadrons, their formation, and ongoing challenges in particle physics.

Explore the interactions of particles, focusing on QCD and tetraquarks.

Explore the significance of U(1) symmetries and spontaneous symmetry breaking in physics.

Investigating the elusive nature and decay of neutrinos from cosmic sources.

Research on neutrinos reveals their unique properties and potential influence on fundamental physics.

This article examines the role of diffuse axion background in understanding cosmic events.

Research sheds light on tunneling mechanics from excited particle states.

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

A new software tool improves the study of parton densities in particle physics.

New theories are essential to address gaps in our understanding of fundamental particles.

Explore the significance of U(1) symmetries and spontaneous symmetry breaking in physics.

Study the impact of electric charge parameters on black hole thermodynamics.

Research sheds light on tunneling mechanics from excited particle states.

Exploring the connection between black holes and dark fluids like Chaplygin gas.

Exploring how memory alters interactions in infrared finite scattering theory.

New theories are essential to address gaps in our understanding of fundamental particles.

Scientists investigate the blend of quantum mechanics and gravity at tiny scales.

Investigating how magnetic fields alter light behavior in unique Dirac materials.

An overview of nonlinear waves and their significance in various fields.

Exploring the link between consciousness and quantum measurement through a process-based approach.

A look at the relationship between mass and energy through historical and modern lenses.

Exploring how reference frames impact our understanding of quantum mechanics.

Exploring the unique challenges of self-gravitating systems in physics.

A detailed look into how vortices behave in fluid dynamics.

Explore the discovery of helium and its significance in atomic theory.

Learn about Born's rule and its significance in quantum mechanics.

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

New detector designs improve antineutrino detection for safer nuclear operations.

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

New techniques in PAS promise improved material analysis and imaging.

The CMS detector is set to improve data collection with a new calorimeter system.

The Vigil mission aims to monitor solar wind effects on Earth from space.

CIRCUS streamlines complex physics experiments with automation and real-time data analysis.

New imaging techniques enhance the study of rapid events across various fields.

Research reveals new pulsating sdB stars and their unique properties.

SkyMapper's DR4 offers extensive data on celestial objects across the southern sky.

A new tool enhances methods for finding exoplanets beyond our solar system.

Learn how gravitational waves are changing our view of the cosmos.

New detector designs improve antineutrino detection for safer nuclear operations.

Improving wavelet transforms enhances analysis of complex spherical data across various fields.

The GRAVITY fringe tracker improves observations across various astronomical applications.

Six satellites aim to study fast-changing cosmic events.

New algorithms cut data needs for detailed molecular imaging.

Exploring the electrocaloric effect for sustainable cooling solutions.

OPTIMADE connects users to essential materials data through a standardized API.

Examining hydrogen's role in enhancing solar cell performance and longevity.

A new method improves uncertainty estimation in atomistic simulations with deep learning.

Exploring the benefits and advancements of spintronics in electronics.

Research reveals the impact of chromium doping on silicene's properties for advanced technology.

Skyrmions may transform how we design faster, efficient electronic devices.

Exploring how memory alters interactions in infrared finite scattering theory.

A look into the behavior of interacting quantum systems and their applications.

A look at how ASEP helps study particle behavior in complex systems.

Examining how fluctuating magnetic fields impact the Landau Hamiltonian's behavior in particle dynamics.

Examining random walks in branching structures reveals important ecological and computational dynamics.

A new method improves interpretation of quantum mechanics through bi-probabilities.

New methods improve the study of gauge theories through weak presymplectic gauge PDEs.

This article examines models in topological quantum field theories using combinatorial methods.

Study compares models for predicting positron production in cancer treatment.

Learn how hyperspectral imaging reveals detailed material information across various fields.

A new method for detecting breast cancer combines microwave technology and computer analysis.

Examining how spiral waves influence brain activity and cognitive functions.

New method transforms echocardiogram images into detailed heart models.

Clear guidelines for reporting transcranial ultrasound studies enhance research reliability.

Research aims to improve lung function tests for better diagnosis and treatment.

New MRI protocols enhance assessment of brain white matter health.

Research into the nonlinear Hall effect reveals complex electronic behavior with potential technological applications.

A novel method for achieving topological superconductivity using magnetic barriers in Josephson junctions.

Explore CoSi films and their key properties in electronics and superconducting applications.

Majorana zero modes hold promise for quantum computing and unique properties in superconductors.

Examining how DMI influences magnetic properties in iron germanium nanoparticles.

Examining the relationship between superconductivity and topological phases in materials.

Recent research challenges established views on magnetoresistance in chiral materials.

This research reveals how vortices cluster in polariton quantum fluids under various conditions.

New study reveals insights into fission fragments through abrasion-fission reactions.

New detector designs improve antineutrino detection for safer nuclear operations.

New reaction rates enhance understanding of element formation in supernovae.

Exploring how fluid behavior impacts freeze out in high-energy nuclear collisions.

A study on how jets lose energy in quark-gluon plasma during particle collisions.

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

Researchers are improving jet measurements to better understand quark gluon plasma properties.

Exploring how atomic shapes influence particle behavior in high-energy physics.

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

Recent findings in two-color QCD shed light on sound velocity in neutron stars.

New techniques for efficient wave-packet creation in quantum simulations of particle interactions.

Exploring tensor forces and their effects on Gamow-Teller transitions in magic nuclei.

Exploring how fluid behavior impacts freeze out in high-energy nuclear collisions.

A study on how jets lose energy in quark-gluon plasma during particle collisions.

Investigating dark matter interactions using nuclear reactors offers new research opportunities.

An overview of neutron stars and their fascinating properties in the cosmos.

Research into the nonlinear Hall effect reveals complex electronic behavior with potential technological applications.

Researchers explore how structured light interacts with spin for innovative applications.

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

A look at using Rydberg atoms for electric field measurement methods.

This research reveals how vortices cluster in polariton quantum fluids under various conditions.

This article explores the significance of trapped ions in quantum technologies.

Researchers use light behavior for efficient solutions to complex optimization problems.

Researchers find a way to guide light through opaque materials using a core structure.

Study reveals how impurities alter edge states in topological materials.

Exploring how SARS-CoV2 interacts with ACE2 and its implications for COVID-19.

Study reveals effects of NiO on Permalloy magnetic properties.

A look into electron interactions in flat-band materials and their transport properties.

Exploring how electrons move in metals and its implications for technology.

Exploring the fascinating behavior of Casimir forces between closely spaced plates.

A look into adiabatic processes and their significance in quantum systems.

New methods enhance understanding of fluid dynamics in extreme nuclear conditions.

An overview of nonlinear waves and their significance in various fields.

This article explores degenerate soliton groups and their significance in nonlinear optics.

An examination of soliton gases and their connection to generalized hydrodynamics.

Explore key models guiding the study of biological invasion and population dynamics.

Exploring how connections influence cooperation in social networks.

Exploring the behavior and formation of jellyfish blooms in the ocean.

Research on solitons shows promise in communications, imaging, and computing.

A look into the dynamics of merging Bose-Einstein condensates and their implications.

A look at the relationship between mass and energy through historical and modern lenses.

IQM SparkTM enhances learning and research in quantum technology with hands-on experience.

Storytelling makes complex physics topics relatable and engaging for students.

This article examines how gamification boosts student engagement in flipped classrooms.

This article discusses the benefits of labor-based grading in diverse classrooms.

New course combines quantum and classical computing for future readiness.

Using Arduino to improve student learning in second-year honors physics labs.

Examining gender differences and equity in physics laboratory education.

Examining how urban areas foster community overlaps and social interactions.

Analysis reveals key moments affecting the electricity grid's reliability.

This study examines how longer memory enhances cooperation in repeated interactions.

Research presents a model to identify future influencers for effective marketing.

Discover how relationships evolve over time with temporal networks.