Latest Articles for Pressure

This study examines how stenosis affects blood flow and its implications for health.

Research explores how pressure alters the electronic structure of heavy-fermion materials.

Research shows low-temperature compression enhances strontium's superconducting properties.

A look at how gas particles interact and their implications.

Explore how Earth's core shapes the magnetic field and its reversals.

A new approach improves accuracy in fluid flow simulations through complex materials.

La Ni O shows promise as a superconductor at high temperatures under pressure.

Research reveals quantum and anharmonic effects on H Se's superconducting properties under pressure.

Combining data and models to enhance blood flow predictions in arteries.

Exploring the properties and applications of nitrogen hydrates in energy storage.

Exploring how granular materials respond to growth and stress changes.

An overview of how gas clouds collapse to form stars and other celestial bodies.

Examining the impact of quark AMM on dense quark matter in strong magnetic fields.

New methods simplify calculations in Yang-Mills plasma pressure at elevated temperatures.

New method uses strain measurements for aerodynamic load estimation in hypersonic flight.

Investigating cold quark matter and its implications for neutron stars.

A look into the behavior of granular materials and their unique properties.

Researchers study iron oxide's structure changes under high pressure and temperature.

A look at the Gibbs variational principle through the Asakura-Oosawa model.

Study examines CO2 interactions with water and hydrates under varying conditions.

Research reveals how pressure alters the behavior of CaKFe As.

Piezo proteins are crucial for sensing touch and regulating blood pressure.

Research reveals how silk cocoons protect silkworms and inspire new materials.

This study reveals how pressure affects energy at the surface of CO2 hydrates.

Examining how rivals influence lifters' risk decisions in bench press competitions.

Research on lanthanum superhydride reveals hydrogen vacancies impact superconductivity significantly.

A thin rod lifts granules, revealing complex friction and pressure interactions.

This article discusses the potential for life in space and creating self-sustaining habitats.

A look into the mysteries of black holes and their unique properties.

This article discusses a model simulating the interactions in tumor growth.

Research on boron glass properties using machine learning techniques shows promise for future applications.

Examining how water flows and mixes in different materials.

Examining how clouds shape the atmospheres of distant exoplanets.

New methods improve how soft robot arms tackle various tasks effectively.

New methods improve equations of state for neutron stars using Chebyshev polynomials.

This model aims to enhance research on bladder health and treatment options.

Research shows pressure can improve thermoelectric material performance, specifically chalcopyrites.

Explore the unique behavior and potential applications of dipolar quantum fluids.

La Ni O shows unique superconducting properties under pressure and with impurities.

Scientists enhance atmospheric models to better understand distant planets.