Last update: Jun 11, 2026

Quantum friction causes light to slow down nanoworld movements

Nanophysics news

Quantum friction causes light to slow down nanoworld movements

A research team in Bochum, Germany has unexpectedly found that light can slow down movements in the nanoworld. This is due to quantum friction, a phenomenon that has been poorly understood until now. The findings are published ...

Nanophysics

Jun 11, 2026

Organic molecule with ultranarrow emission spectrum could lead to better LEDs

Over the past several decades, light sources have gradually transitioned to light-emitting diodes, or LEDs, and inorganic LEDs are now used across a wide range of applications. In parallel, organic LEDs, or OLEDs, have become ...

Nanophysics

Jun 11, 2026

Magnon momentum microscopy: A new window into nanoscale spin-wave physics

An international team led by the Max Born Institute has developed a new type of momentum microscopy to image magnons—the quanta of collectively excited spins—directly in two-dimensional reciprocal space using soft X-rays. ...

Nanophysics

Jun 8, 2026

Twisted stacking lets 2D conductor keep single-layer performance in bulk form

Two-dimensional (2D) materials, which are significantly thinner than a single sheet of paper, have long drawn attention for their exceptional performance. However, they have faced a critical limitation: Their performance ...

Nanophysics

Jun 8, 2026

Van der Waals forces can play unexpected role in thin film properties

Researchers have demonstrated the ability to use van der Waals forces to tune the physical and electronic properties of ferroelectric thin films. The work opens the door to new techniques for engineering materials for use ...

Nanophysics

Jun 8, 2026

Dynamic terahertz wavefront control using stretchable single-walled carbon nanotube-based metasurfaces

The terahertz (THz) frequency regime, sitting between microwaves and infrared light, has long promised revolutionary advances in wireless communication, security imaging and nondestructive sensing. A key roadblock, however, ...

Nanophysics

Jun 7, 2026

Gold nanoparticles unlock vibrant structural colors across the visible spectrum

Colloidal photonic glasses offer an appealing way to produce vivid colors without any chemical dyes—but so far, a stubborn optical effect has long prevented them from generating a true red color. Now, Yuwon Jeon and colleagues ...

Nanophysics

report

Jun 7, 2026

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Teaching AI to design optical surfaces using real-world imperfections

Designing surfaces that precisely control how light behaves at the nanoscale is tricky. Optical Fourier surfaces, which are nanostructured gratings that redistribute light into specific directions and wavelengths, hold enormous ...

Nanophysics

Jun 4, 2026

AI paired with tiny optical device corrects distorted light for sharper imaging

Blurry light from lens imperfections is a problem everywhere, from microscopes to telescopes to smartphone cameras. Using a tiny yet carefully engineered optical element and artificial intelligence, University of California ...

Nanophysics

Jun 4, 2026

Physics-trained digital 'super-brain' speeds nanophotonic design

Studying physics can be very useful—even when it comes to machine learning. A digital "super-brain" with built-in knowledge of the fundamental laws of nature can speed up the development of optical components for everything ...

Nanophysics

Jun 4, 2026

New route to tailor-made diamond nanoparticles holds promise for quantum applications

Nanodiamonds are tiny diamond particles only a few nanometers in size. Because they are chemically highly stable and can host so-called color centers, optically active defects in the crystal lattice, they are considered promising ...

Nanophysics

Jun 3, 2026

Whiskey chemistry propels microscopic machines through liquid

Whisky-inspired chemicals could help power a new generation of microscopic machines, according to researchers who have discovered a way to make tiny particles "swim" through liquid using compounds linked to the production ...

Nanophysics

Jun 3, 2026

Strain creates moiré 2D materials without twisting or stacking, opening more scalable route

Cornell researchers have developed a new way to create moiré patterns—atomic-scale structures that can give materials unusual quantum behaviors—without relying on the traditionally used difficult-to-control twisting and stacking ...

Nanophysics

Jun 2, 2026

Silver nanoparticles enable assembly of a theorized, previously unobserved crystal metallic structure

Using finely tuned nanoscale building blocks, researchers from Brown University and the University of Michigan College of Engineering have stabilized a fleeting structural phase of matter that had been predicted theoretically ...

Nanophysics

May 28, 2026

Metamaterials enable control of heat transfer at nanoscale, potentially transforming energy and electronics

Heat behaves in predictable ways: a hot cup of coffee cools, a laptop warms your hands, the sun heats Earth. But at scales thousands of times smaller than a human hair, those rules begin to break down, and scientists are ...

Nanophysics

May 27, 2026

Tiny on-chip circuit could power next-generation quantum and AI technologies

Researchers from Monash University have developed a breakthrough nanoscale circuit that can generate, direct, and read light-based information, all on a single chip.

Nanophysics

May 26, 2026

When order gives way to chaos—the turbulent birth of magnetic nanovortices

Magnetic switching processes are considered a prime example of controllable physics at the nanometer scale: in certain thin-film systems, a short electrical current pulse is sufficient to reverse the magnetization in a targeted ...

Nanophysics

May 24, 2026

Imaging ellipsometry tracks MXene thin-film quality during fabrication without damage

A German–Israeli research team led by Dr. Andreas Furchner has demonstrated how imaging ellipsometry enables non-destructive characterization and quality control of microstructured MXene thin films during device fabrication. ...

Nanophysics

May 22, 2026

Stressed crystal creates nanoscale patterns on chip materials at room temperature

A new chip-making technique exploits a material's crystal structure to create nanoscale patterns at room temperature directly onto hard materials used in devices, including silica. The method could make it easier to pattern ...

Nanophysics

May 22, 2026

Chiral carbon nanotube films deliver giant light-conversion effect

A sheet of twisted carbon nanotubes has revealed a hidden talent scientists suspected for decades but had never managed to measure. Researchers at Rice University have created large, highly ordered films of chiral carbon ...

Nanophysics

May 20, 2026

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