Latest Articles for Energy

This study explores energy dynamics and excitations in moving metallic plates.

Innovative method improves laser cooling efficiency for atomic physics and quantum computing.

A study on fluid behavior in channels and its implications.

GreenWhisk focuses on reducing carbon emissions in cloud computing.

Investigating the characteristics of rotating black holes and their gravitational effects.

Exploring energy efficiency's role in scene reconstruction for improved XR experiences.

Examining the accuracy of melting temperature calculations from simulations.

A study reveals how solar jets influence magnetic energy and helicity.

Explore how cells manage space and resources for survival and growth.

Research reveals how liquid metals can generate electricity from heat.

Study reveals dynamics of energy and helicity in solar jet simulations.

Pinto helps monitor forests by mimicking squirrel movements.

Learn how physics principles explain common cat behaviors.

Learn how solute carriers transport vital molecules across cell membranes.

Walking on bumpy trails requires more energy than strolling on flat surfaces.

A look into the least action principle and its role in physics.

Examining how fluids and solids interact in everyday scenarios.

A look into the properties of liquid-liquid interfaces and their importance.

Exploring the role of internal waves in ocean behavior and energy transfer.

Researchers optimize energy use in active matter systems for enhanced control.

A look into what makes human dopamine neurons unique.

This article examines how self-steering active agents balance energy use and accuracy.

A tool to analyze energy use by computer programs.

Examining how the brain's energy use relates to information processing.

Exploring how resource constraints shape decision-making in biological organisms.

A fresh look at how erasing information may not always mean energy loss.

This study presents new methods for efficient memory erasure with reduced energy use.

Research reveals efficient voltage pulse shapes for improved memory device performance.

Combining variational methods with adiabatic techniques to improve quantum state preparation.

A new approach helps satellites reduce battery usage and extend lifespan.

This study highlights kinetic simulations for better understanding of laser interactions with plasma.

A look at how magnetic domain walls interact with electrons in materials.

New methods improve energy measurement in liquid argon time projection chambers for particle physics.

A new model mimics brain learning to improve task adaptation in AI.

Research on excitons and magnons in CrSBr reveals new optical properties.

New designs in calorimeters promise improved measurements in particle physics experiments.

Exploring how domain walls interact with gravity around neutron stars.

A new soft robot imitates dolphin movements for improved underwater exploration.

Exploring the puzzling phenomenon of ball lightning and its possible connections to magnetic monopoles.

Discover how Lagrangian neural networks predict movement with real-world constraints.