The performance of the DELPHI Hadron Calorimeter at LEP

1995 IEEE Nuclear Science Symposium and Medical Imaging Conference Record Pub Date : 1996-06-01 DOI:10.1109/NSSMIC.1995.510371

I. Ajinenko, K. Beloous, J. Chudoba, S. Czellár, H. Herr, N. Jouravlev, N. Khovansky, P. Kluit, Z. Zrumstein, K. Kurvinen, V. Lapin, R. Leitner, J. Masik, A. Olchevski, J. Řídký, Y. Sedykh, P. Sicho, O. Smirnova, O. Solovianov, O. Tchikilev, L. Tkatchev, Z. Tomsa, V. Vrba, W. Williams, A. Wetherell, J. Zaslavsky

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引用次数: 1

Abstract

The DELPHI Hadron Calorimeter was conceived more than ten years ago, as an instrument to measure the energy of hadrons and hadronic jets from e/sup +/e/sup -/ collisions at the CERN collider LEP. In addition it was expected to provide a certain degree of discrimination between pions and muons. The detector is a rather simple and relatively inexpensive device consisting of around 20,000 limited streamer plastic tubes, with inductive pad read-out, embedded in the iron yoke of the 1.2 T DELPHI magnet. Its depth is at minimum 6.6 nuclear lengths. The electronics necessary for the pad read-out was designed to have an adequate performance for a reasonable cost. This detector has proved over six years of operation to have an entirely satisfactory performance and great reliability, for example less than 1% of the streamer tubes have failed and electronic problems remain at the per mil level. During the past two years an improvement programme has been under way. It has been found possible to use the streamer tubes as strips, hence giving better granularity and particle tracking, by reading out the cathode of individual tubes. The constraints on this were considerable because of the inaccessibility of the detectors in the magnet yoke. However a cheap and viable solution has been found. The cathode read-out leads to an improved energy resolution, better /spl mu/ identification, a better /spl pi///spl mu/ separation and to possibilities of neutral particle separation. The simultaneous anode read-out of several planes of the endcaps of the detector will provide a fast trigger in the forward/backward direction which is an important improvement for LEP200. On the barrel the system will provide a cosmic trigger which is very useful for calibration as counting rates at LEP200 will be very low.

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DELPHI强子量热计在LEP上的性能

德尔菲强子量热计是十多年前构想出来的，用于测量欧洲核子研究中心对撞机LEP上e/sup +/e/sup -/碰撞产生的强子和强子射流的能量。此外，它还被期望在介子和介子之间提供一定程度的区别。检测器是一种相当简单和相对便宜的设备，由大约20,000个有限的拖带塑料管组成，带有感应板读出，嵌入在1.2 T DELPHI磁铁的铁轭中。它的深度至少有6.6个核长度。pad读出所需的电子设备设计为以合理的成本具有足够的性能。经过六年的运行证明，该探测器具有完全令人满意的性能和很高的可靠性，例如，只有不到1%的拖缆管失效，电子问题仍然保持在每密尔的水平。在过去两年中，一直在执行一项改进方案。已经发现可以使用拖缆管作为条带，因此通过读出单个管的阴极来提供更好的粒度和颗粒跟踪。这方面的限制是相当大的，因为磁铁轭中的探测器是不可接近的。然而，已经找到了一种廉价可行的解决方案。阴极读出可以提高能量分辨率，更好的/spl mu/识别，更好的/spl pi///spl mu/分离以及中性粒子分离的可能性。探测器端盖的多个平面的同时阳极读出将提供正向/反向的快速触发，这是LEP200的一个重要改进。在枪管上，系统将提供一个宇宙触发器，这对于校准非常有用，因为LEP200的计数率将非常低。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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1995 IEEE Nuclear Science Symposium and Medical Imaging Conference Record

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