Detector Electronics Studies

The accurate, fast, and reliable processing of signals generated by radiation detectors is one of the most critical factors determining overall system performance. At NÜRDAM, comprehensive research is carried out on the design, development, and optimization of high-sensitivity and low-noise detector electronics tailored to different types of radiation detectors.

Electronic System Design and Development

Detector electronics activities at NÜRDAM cover the entire signal chain, from signal generation to data acquisition. In this context, the following systems are developed and optimized:

• Low-noise preamplifiers for amplifying weak detector signals,
• Signal shaping (shaper) circuits for pulse processing and noise filtering,
• Electronic optimization techniques to improve signal integrity and reduce noise,
• Data acquisition (DAQ) systems for digital signal processing and analysis.

High Voltage and Readout Systems

High-voltage supply systems and safe distribution infrastructures required for gas-filled and other radiation detectors are designed and implemented at NÜRDAM. In addition, multi-channel readout systems are developed to efficiently collect and analyze signals from large-area detectors.

Detector Electronics Research at NÜRDAM

Detector electronics research at NÜRDAM is closely integrated with detector development activities, including gas-filled detectors, semiconductor detectors, and next-generation sensing systems. The main research areas include:

• Development of dedicated readout electronics for gas detectors (e.g., GEM, NanoGEM),
• Design of low-noise, high-sensitivity electronic systems,
• Implementation of fast and reliable data acquisition infrastructures,
• Experimental validation and performance testing of developed systems.

By combining detector physics with advanced electronics design, NÜRDAM aims to develop integrated and innovative solutions for radiation detection technologies.