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PET Detection Module – Customizable Scintillator & SiPM Arrays for Scanner Building

Overview Our modular PET detection modules are designed to simplify the efficient, cost-effective construction of PET scanners, offering full customization to meet your unique system requirements. Whether for preclinical research, clinical imaging, or specialized applications (e.g., brain PET, small animal PET), these modules integrate high-performance scintillators, silicon photomultipliers (SiPMs), custom light guides, and advanced readout electronics??delivering performance comparable to ASIC-based detectors at a fraction of the development cost. Engineered for flexibility, they support tailored configurations of pixel sizes, array dimensions, and reflective layers, ensuring seamless integration into diverse scanner designs while maintaining exceptional energy and timing resolution.

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Description

Key Features
Fully Customizable Components
Scintillator Arrays: Available in BGO, LYSO, and GAGG, with fully customizable pixel sizes, array dimensions, and reflective layer types (e.g., BaSO?, ESR). Optimize for sensitivity, decay time, or cost based on your application.
SiPM Detectors: Customizable pixel sizes, pitches, and array dimensions, ensuring optimal coupling with scintillator arrays for maximum light collection and minimal crosstalk.
Light Guides: Tailored to your system geometry, enhancing light transfer between scintillators and SiPMs to improve signal uniformity and detection efficiency.
Readout Electronics: Integrated CAPNET system with TDC (Time-to-Digital Converter)/ADC (Analog-to-Digital Converter) boards, providing high-precision timing and energy measurement without external components.
Exceptional Performance
ASIC-Level Performance: Matches the accuracy and speed of application-specific integrated circuit (ASIC) detectors, with energy resolution and timing precision suitable for high-resolution PET imaging.
Energy Resolution: ~9% (using LYSO scintillators), enabling clear discrimination of 511 keV gamma rays from positron annihilation??critical for reducing background noise and improving image contrast.
Coincidence Time Resolution: ~310 ps (using LYSO), supporting time-of-flight (TOF) PET capabilities to enhance spatial resolution and reduce scan duration.
Practical Advantages
Low Power Consumption: Approximately 1W per module, ideal for compact or battery-powered systems (e.g., portable PET scanners or preclinical setups with limited power budgets).
Modular Design: Simplifies scalable scanner construction??easily combine multiple modules to expand detector coverage (e.g., full-ring configurations for whole-body imaging).
Cost-Effective: Eliminates the need for custom ASIC development, reducing upfront engineering costs while maintaining high performance.
Technical Specifications
Scintillators include BGO, LYSO, and GAGG (with customizable pixel size, array size, and reflective layers). Detectors are SiPMs (with customizable pixel size, pitch, and array size). Light guides feature customizable geometry and material (e.g., acrylic, glass). Readout electronics consist of CAPNET plus integrated TDC/ADC boards. Performance is comparable to that of ASIC-based detectors, with a power consumption of approximately 1 W per module. The energy resolution (for LYSO) is approximately 9%, and the coincidence time resolution (for LYSO) is approximately 310.

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