Discover the role of electromomentum coupling in innovative material design and applications.
― 4 min read
Latest Articles
Latest Articles
Study reveals how light affects spin waves in magnonic crystals for data processing.
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Research advances control of electron movement using light for fast measurements.
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Research shows link between AHE and THz radiation in CoFeB thin films.
― 5 min read
New methods using metasurfaces improve high-frequency wireless signals.
― 5 min read
New methods enhance X-ray production through innovative undulator designs.
― 5 min read
ICGs offer a compact and efficient alternative to traditional reflective mirrors.
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Temporal cloaking hides events in sound, offering significant potential in various fields.
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Research reveals electric fields can control magnetism, improving efficiency in storage and sensing technologies.
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Research explores how microwaves can manipulate magnetic particles for technology advancements.
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Investigating new materials for precise control of light's polarization.
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Examining the effects of thermal hysteresis on heat flow in phase-change materials.
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Examining how magnons and phonons interact can transform quantum information processing.
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Optical computing could reshape deep learning with its speed and energy efficiency.
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Innovations in acousto-optic devices lead to improved signal processing and efficiency.
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Research highlights effective methods for manipulating sound through acoustic metamaterials.
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New silicon-compatible TPV cells promise lower costs and improved energy efficiency.
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A low-cost device effectively separates particles in liquids using electric fields.
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Two methods using diamagnetic liquids show promise in magnetic field measurement.
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New hybrid lasers enhance performance for diverse scientific and industrial applications.
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A new thermometer improves temperature measurement for thermoelectric devices at low temperatures.
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New materials could minimize vibrations without adding weight or complexity.
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Combining collimators improves neutron beam focus for precise scientific experiments.
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Research reveals new insights into cubic singularities in electromechanical systems.
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This article presents a method for measuring how liquids respond to magnetic fields.
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A new integrated circuit combines notch filtering and phase shifting for advanced RF systems.
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SiGe HBTs face performance issues in extremely cold conditions, impacting future applications.
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FerroHEMTs show promise in high-speed, high-current applications for electronics.
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A new method streamlines the study of dynamic mechanical metamaterials.
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New techniques improve speed and efficiency in silicon photonic modulators for optical communication.
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Researchers improve Permalloy's magnetic properties using helium irradiation for better sensors.
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Smart concrete uses piezoelectric materials to monitor structural health in real time.
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A look at how noise affects ferroelectric materials in electronics.
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Research reveals effects of electric fields on P3HT's capacitance and dielectric loss.
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New insights into skyrmions could improve data storage technologies.
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Researchers are improving robotic manipulation of flexible objects for various applications.
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A new technique enhances how we measure diffusion in tiny structures.
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A look into how temperature affects SPP wave behavior in specific materials.
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Researchers design structures to manipulate elastic surface waves for various applications.
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Examining the limits of equivalent circuits in nonlinear electronic systems.
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Research highlights inconsistencies in interpreting small-angle scattering data among researchers.
― 5 min read