Latest Articles for Medical Applications

Hyperpixels improve spectral imaging accuracy across various fields.

A promising approach to categorize and estimate neuron responses in complex brain activity.

New methods in deep learning for accurate predictions of nuclear cross sections.

This study reveals brain activity differences during engaging tasks and waiting periods.

New methods improve audio representation through self-supervised learning techniques.

New lightweight diamond maser advances technology and opens research possibilities.

New techniques improve imaging detail and reduce radiation exposure.

Examining how heat treatment alters the properties of ZX10 magnesium alloy.

Exploring synthetic meshes and their impact across various industries.

This article reviews techniques to free trapped air bubbles in liquids.

Exploring the evolution and future potential of protein design in various fields.

A look into the evolving field of 3D human avatars and their applications.

A novel approach to understanding stability in systems with time delays.

Learn about space-time wave packets and their potential impact on technology.

New methods enhance 3D visualization of biological structures through improved pose estimation.

Study reveals new insights into hydrogel behavior under stress.

A new method combines hyperspectral and multispectral images for enhanced quality.

A new model predicts nanobody thermostability using limited data.

A study on how compressible fluids and elastic structures interact in various fields.

An overview of niobium-based superconductors and their applications in modern technology.

Cascaded group testing offers a streamlined approach to spot defects in large item sets.

New method measures electric fields using trapped ions for precise applications.

New methods to accurately model particle behavior in slow-moving fluids.

Additive manufacturing improves atomic vapour cell design for quantum applications.

AFD-X improves protein crystal analysis, enhancing data collection methods.

Analyzing expert behaviors to improve robotics and rehabilitation.

Researchers use neural networks to better control and visualize complex laser systems.

A look at neutron behavior and its significance in nuclear applications.

Exploring isotope production and isomeric ratios in nuclear physics.

New soft robotics approach uses single input for better control.

Neutron Dark-Field Imaging offers insights into the structure of nanocellulose foams.

Explore how microstructure influences the performance of hyperelastic materials.

Examining how non-Newtonian fluids behave during chemical reactions.

This study investigates the behavior of liquid films for various applications.

New method improves visibility of hidden objects using lasers and advanced algorithms.

New plasma boosters are set to improve X-ray free-electron lasers significantly.

Vortex lasers offer unique properties for diverse technological applications.

Exploring the behavior and potential of magnetic nanoparticles in various fields.

Examining how mutual scattering reveals important properties of materials.

Research reveals how mechanical forces affect mammary duct formation.