A novel laser alignment system for tracking detectors using transparent silicon strip sensors

1995 IEEE Nuclear Science Symposium and Medical Imaging Conference Record Pub Date : 1995-10-21 DOI:10.1109/NSSMIC.1995.504268

W. Blum, H. Kroha, P. Widmann

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引用次数: 38

Abstract

Modern large-area precision tracking detectors require increasing accuracy for the alignment of their components. A novel multi-point laser alignment system has been developed for such applications, in particular for the muon spectrometer of the ATLAS detector at the Large Hadron Collider. The position of the detector components is monitored with respect to reference laser beams with semitransparent optical position sensors at multiple consecutive stations. The custom designed sensors work on the principle of silicon strip photodiodes. Two types of transparent strip sensors, based on crystalline and on amorphous silicon as active material, have been studied. The sensors provide two-dimensional position measurement with order 1 /spl mu/m resolution uniformly over a wide measurement range of several centimeters. Transmission rates above 90% have been achieved at selected wavelengths produced by laser diodes. This allows to position more than 10 sensors along one laser beam. Custom designed integrated readout electronics is being developed for the sensor systems.

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采用透明硅条传感器的新型跟踪探测器激光对准系统

现代大面积精密跟踪探测器对其组件的对准精度要求越来越高。一种新型的多点激光对准系统已经被开发出来，特别是用于大型强子对撞机ATLAS探测器的μ介子光谱仪。在多个连续的站点上使用半透明光学位置传感器来监测探测器组件相对于参考激光束的位置。定制设计的传感器工作原理是硅条光电二极管。本文研究了以晶态硅和非晶态硅为活性材料的两种透明条形传感器。该传感器在几厘米的宽测量范围内均匀地提供分辨率为1 /spl μ m的二维位置测量。在激光二极管产生的选定波长上，透射率已达到90%以上。这允许沿着一个激光束定位10多个传感器。正在为传感器系统开发定制设计的集成读出电子设备。

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1995 IEEE Nuclear Science Symposium and Medical Imaging Conference Record

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