Jinxing Li and Christopher H. Contag delve into magnetobiology, which utilizes magnetic fields to manipulate and control ...

Four lenses and a Spatial Light Modulator allow each pixel to have a different focal length in research from Carnegie Mellon ...

All-optical image processing has been viewed as a promising technique for its high computation speed and low power ...

LLNL researchers break barriers in 3D nanofabrication - transforming two-photon lithography (TPL) into a wafer-scale ...

The prototype uses a Canon EOS R10 with a Dual Pixel CMOS sensor, which allows every pixel to participate in phase detection.

Scientists have turned a long-standing sci‑fi idea into working hardware, using pure light to move data wirelessly through ...

A chip smaller than one square millimeter stores 160 holographic images at arbitrary 3D coordinates, with each spatial ...

This important study combines optogenetic manipulations and wide-field imaging to show that the retrosplenial cortex controls behavioral responses to whisker deflection in a context-dependent manner.

In polarization analysis, the real structure of a retarder sample may consist of multiple layers or a continuous, nonlayered structure (left). Conventional approaches typically model the sample as a ...

Optical instruments that observe through a medium, such as telescopes or microscopes, can have their images distorted by the viewing medium or the optical components themselves. To prevent this, ...

Devices made from certain materials can double the frequency of light. Programmable electrodes can tune this response to produce various light spectra. In the field of electronics, reprogrammable ...