Physical Sciences

Plasma Diagnostics

Application Challenges

Plasma studies employ spectroscopic, interferometric, or imaging techniques to probe the evolution of high-temperature, high-energy-density environments. In nuclear fusion devices and laser-plasma experiments, scientific cameras must cover extreme spectral ranges—from extreme ultraviolet to bremsstrahlung X-rays—while maintaining high detection efficiency and low noise performance. This enables reliable acquisition of radiation data under extreme conditions, supporting fundamental insights into plasma dynamics.

2-3 Plasma Physics
Soft X-Ray & EUV sCMOS Cameras-tucsen XF-XV-95

Dhyana XF95 / XV95

Soft X-Ray & EUV sCMOS Cameras

The Dhyana XF95 / XV95, developed by TUCsen, are specialized sCMOS cameras designed for soft X-ray (SXR) and extreme ultraviolet (EUV) imaging, both ex-situ and in-situ. They achieve near-100% quantum efficiency within the photon energy range of 80–1000 eV, with overall QE exceeding 90% across the full range, and approaching 100% in certain bands.

The cameras support a full-resolution mode (2048 × 2048) with a frame rate of 24 fps, several tens of times faster than conventional BSI CCDs. They are fully capable of replacing BSI CCDs for soft X-ray multilayer imaging, enabling applications in previously limited research fields.

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