HPDs combine vacuum-based image intensification techniques with a silicon diode to provide maximum photon amplification while virtually eliminating additional noise.
Proximity or electrostatic focus
Large detection area (16, 18, 25. 40 or 72 mm)
Single or multi-stack MCP configuration
Single or multi-pixel configuration
Hi-QE photocathode option
Superior photon detection with nearly zero noise
Hybrid photo diode (HPD) detectors provide excellent single photon detection capability with good linearity and fast timing. A wide range of models are offered to ensure you capture every available photon.
HPDs detect the greatest amount of photons with virtually no added noise, combining vacuum-based image intensification technologies with a silicon diode. Photonis offers a wide range of standard and custom detectors that are specifically designed for your application. Options include focus type, optic entry window, photocathodes, MCP configurations and pixel configurations. Power supplies and cameras can also be ordered to support your specific application. HPDs are well-suited for high energy physics research, specialized medical imaging or space exploration.
HPDs combine vacuum-based image intensification techniques with a silicon diode to provide maximum photon amplification while virtually eliminating additional noise.
- Proximity or electrostatic focus
- Large detection area (16, 18, 25. 40 or 72 mm)
- Single or multi-stack MCP configuration
- Single or multi-pixel configuration
- Hi-QE photocathode option
Superior photon detection with nearly zero noise
Hybrid photo diode (HPD) detectors provide excellent single photon detection capability with good linearity and fast timing. A wide range of models are offered to ensure you capture every available photon.
HPDs detect the greatest amount of photons with virtually no added noise, combining vacuum-based image intensification technologies with a silicon diode. Photonis offers a wide range of standard and custom detectors that are specifically designed for your application. Options include focus type, optic entry window, photocathodes, MCP configurations and pixel configurations. Power supplies and cameras can also be ordered to support your specific application. HPDs are well-suited for high energy physics research, specialized medical imaging or space exploration.