The Time Projection Chamber (TPC) system based on microstructure gas detectors has gained widespread application in nuclear physics, particle physics, and astrophysics research in recent years due to its high granularity, relatively good energy resolution, three-dimensional track reconstruction capability, and enhanced particle identification capabilities. It is also being actively explored in market-oriented application fields such as nuclear medicine.
This solution employs our company's self-developed Micromegas detector technology, utilizing a high-granularity strip readout scheme (strip pitch of 650 μm) to achieve two-dimensional readout in the X and Y directions. It is compatible with a high-density signal acquisition electronics system (1024 channels, 40 MSPS), which synchronously processes signals from both ends through a parallel system. This design enables the TPC system to achieve high spatial resolution and particle identification capabilities, particularly suitable for complex track reconstruction in low-cross-section nuclear reactions and high-energy physics experiments.
The dual-end readout TPC system based on Micromegas demonstrates unique advantages in nuclear physics experiments and particle physics through technological integration and innovation. Its high-precision three-dimensional trajectory reconstruction and particle identification capabilities provide powerful tools for studying microscopic particle interactions. With ongoing advancements in electronics and algorithms, this system is expected to play a critical role in broader scientific and industrial applications in the future.
Product Introduction
Technical Parameter
1. Active area: 200x200 mm² with 650 um strip pitch
2. High-density waveform digitization electronics: 1280 channels,40 MSPS
3. Double-layer field cage for uniform electric field