A device smaller than a grain of dust may help unlock the kind of quantum computers people have only dreamed about. Built on ...

Computational fluorescence microscopy (CFM) requires accurate point spread function (PSF) characterization for high-quality ...

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

A device smaller than a grain of dust is emerging as a surprisingly powerful candidate to reshape how quantum computers are ...

Currently, Kyocera's technology enables aerial images whose focal positions vary by color. In the future, increasing the ...

Floquet control uses time-periodic drives to engineer quantum systems, creating dynamic changes in material properties ...

The updated SDA OCT IP Core now operates in a single clock domain, reducing design complexity and easing integration into FPGA-based systems. It adds flexible frame synchronization with configurable ...

Priced at $11,500, the new Optik Phono 1.1 from Backert Labs makes its intentions clear immediately: this is unapologetically high-end, highly specialized hardware built for owners of DS Audio optical ...

The newly released 1.0 specifications are for the physical media dependent layer and transmission convergence layer ...

Driven by the global wave of informatization, the real-time transmission, efficient processing, and intelligent analysis of massive data have become ...

Monarch Quantum delivers Quantum Light Engines (TM), addressing a foundational bottleneck in quantum hardware: the lack of commercially available, scalable, high-precision, reliable photonics ...

Scientists have turned a long-standing sci‑fi idea into working hardware, using pure light to move data wirelessly through the air instead of relying on radio waves or copper traces. The result is a ...