A broad-application microchannel-plate detector system for advanced particle or photon detection tasks: large area imaging, precise multi-hit timing information and high detection rate

A broad-application microchannel-plate detector system for advanced particle or photon detection tasks: large area imaging, precise multi-hit timing information and high detection rate

Citation

Jagutzki, O., Mergel, V., Ullmann-Pfleger, K., Spielberger, L., Spillmann, U., Dörner, R., . . . Schmidt-Böcking, H. (2002). A broad-application microchannel-plate detector system for advanced particle or photon detection tasks: Large area imaging, precise multi-hit timing information and high detection rate. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 477(2-3), 244–249.

  • Microchannel plate
  • Delay-line
  • Particle detection
  • Opto-electronic
  • Multi-hit

Brief

A new imaging system using microchannel-plate (MCP) position readout with helical wire delay-lines is able to detect and analyze position and timing information at single particle rates beyond 1 MHz or collect and analyze multi-hit events at about 20 kHz.

Summary

This article describes a new imaging system for particle or photon detection that utilizes a microchannel-plate (MCP) with helical wire delay-lines and a time-to-digital converter (TDC) readout. The authors argue that this system offers a number of advantages over other commercially available systems (such as CCDs or other MCPs), including:

  • Simultaneous position and timing detection
  • Large area imaging
  • High detection rate: Can detect and analyze:
  1. single particles at rates greater than 1 MHz
  2. multi-hit events at rates of about 20 kHz
  • Flexibility: Can be applied in a wide range of fields
  • Cost-efficient

The article goes on to describe the system in greater detail, focusing on the MCP detector with delay-line readout and the system's ability to perform multi-hit detection. The authors conclude by suggesting that this system will be a valuable tool for research in a variety of fields.

Origin: https://roentdek.com/info/Delay_Line/Jagutzki2002nima_2.pdf

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