Magnetized plasmas enable precise control over nanomaterials
Magnetized plasmas enable precise control over nanomaterials, letting researchers tailor properties at the nanoscale with improved accuracy and repeatability
Category: Physics
Mathematical model explains why rubber cracks sharpen rapidly
A new mathematical model shows viscoelasticity drives rapid crack sharpening in rubber, forming a glassy tip and expanding viscous zone as cracks speed up
Exotic roto-crystals break into fragments and reassemble themselves
Exotic roto-crystals, solids of rotating particles, spontaneously shatter into fragments and reassemble, with odd elasticity and fragment size tied to rotation
Dual electron spin torque moves magnetic domain walls
I am unable to generate the article at this time. The provided URL, `https://phys.org/news/2025-10-dual-torque-electron-magnetic-domain.html`, is inaccessible, and my research tools…
Diamond probe precisely measures ultrafast electric fields
Diamond NV center probes in an AFM map ultrafast electric fields with nanometer spatial and sub-100-fs temporal resolution demonstrated on tungsten diselenide
Low-voltage metasurface modulates light for energy-efficient optics
Researchers are developing ultra-thin, artificial surfaces, known as metasurfaces, that can manipulate light with remarkable precision. These materials are at…
Hidden cavities in 2D devices modify electronic behavior
Researchers have discovered that atomically thin materials, when stacked into tiny devices, naturally form intrinsic cavities that trap and confine…
Dark matter annihilation may cause Milky Way’s gamma ray excess
Dark matter annihilation may explain the Milky Way’s gamma-ray excess, with simulations showing a flattened, ellipsoidal halo aligned with the galactic bulge