Significant advancements in laser-plasma acceleration at DESY lead to improved electron beam quality, paving the way for ...

Innovative laser alignment methods enable precise imaging of biomolecules, advancing single-particle diffraction techniques ...

A recent study explores how carbon black nanoparticles enhance laser absorption and thermal properties in polymer powders ...

High-speed atomic force m (HS-AFM) reveals nanoscale differences in small extracellular vesicles (sEVs), improving biomarker ...

SVS-Vistek is aggressively positioning itself for machine vision leadership with the launch of an ultra-high resolution ...

This study uses multimodal imaging—including SHG, SIMS, and TEM—to reveal how fibroblasts interact with 3D collagen scaffolds ...

Innovative chaos-based encryption using a programmable photonic chip allows for reliable communication in harsh conditions, ...

Research indicates fluorescence spectroscopy can streamline wheat quality predictions, offering a non-destructive alternative ...

This study employs X-ray spectroscopy to identify an associative state in aqueous hydroxide, expanding the understanding of ...

The DELTA technique offers a brain-wide view of synaptic protein alterations, enhancing understanding of neuronal connections ...

Chalmers University researchers unveil a novel optical amplifier with 300 nm bandwidth, enabling tenfold data rates for advanced laser systems and diagnostics.

The University of Oxford’s Department of Materials has entered a new era in microscopy with the arrival of a custom-built £3 ...