Physical science research explores the fundamental laws governing matter, energy, and their interactions, encompassing both theoretical investigations and applied experiments. In this field, imaging technologies face extreme conditions, including low light levels, ultrahigh speeds, ultrahigh resolution, wide dynamic ranges, and specialized spectral responses. Scientific cameras are not merely tools for recording data, but essential instruments driving new discoveries. We offer specialized camera solutions for physical science research, including single-photon sensitivity, X-ray and extreme ultraviolet imaging, and ultra-large-format astronomical imaging. These solutions address diverse applications, from quantum optics experiments to astronomical observations.
Spectral Range: 200–1100 nm
Peak QE: 95%
Readout Noise: <1.0 e⁻
Pixel Size: 6.5–16 μm
FOV (diagonal): 16–29.4 mm
Cooling Method: Air / Liquid
Data Interface: GigE
Spectral Range: 80–1000 eV
Peak QE: ~100%
Readout Noise: <3.0 e⁻
Pixel Size: 6.5–11 μm
FOV (diagonal): 18.8–86 mm
Cooling Method: Air / Liquid
Data Interface: USB 3.0 / CameraLink
Spectral Range: 200–1100 nm
Peak QE: 95%
Readout Noise: <3.0 e⁻
Pixel Size: 9–10 μm
FOV (diagonal): 52–86 mm
Cooling Method: Air / Liquid
Data Interface: CameraLink / CXP
Spectral Range: 200–1100 nm
Peak QE: 83%
Readout Noise: 2.0 e⁻
Pixel Size: 3.2–5.5 μm
FOV (diagonal): >30 mm
Cooling Method: Air / Liquid
Data Interface: 100G / 40G CoF