Utilizing the latest generation of semiconductor silicon photomultiplier devices (SiPM), it boasts ultra-high gain consistency. It exhibits strong resistance to magnetic fields, requires low operating voltage, resulting in low energy consumption, minimal heat dissipation, and enhanced system stability.
A novel oxide crystal is employed, featuring high light yield, high density and hardness, no deliquescence, no self-radiation, and superior image quality.
Scalability: Scalable with multiple detectors, flexible configuration, and upgradeability;
Independence: In the case of multiple detectors, the failure of one of them does not affect imaging and equipment usage;
High stability: No frequent calibration is required.
· Heart rate and breathing monitoring and gating system:Continuously detect, transmit, and process animal vital signs data, and control the impact of breathing and heartbeat on imaging;
· Video surveillance: Observing the activities of mice and rats inside the cabin;
· Equipped with an anesthesia system and gas recovery function;
· Heating function: Continuously maintain the body temperature of large/small mice during the scanning process;
· Cabin interface recognition: Identify cabin types to avoid collisions;
· Lighting function: used in conjunction with video surveillance;
· Cabin anti-fall design;
· Cabin cover recognition function: If the cabin does not have a cover, the system will not initiate scanning,
Prevent animals from waking up and escaping due to forgetting to close the hatch cover.
· Provide focused multi-pinhole collimators in multiple specifications, suitable for different energy nuclides;
· The supported nuclide energy range is broader, spanning from low to high energy;
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