D. Attree scite author profile

This paper describes the evaporative system used to cool the silicon detector structures of the inner detector sub-detectors of the ATLAS experiment at the CERN Large Hadron Collider. The motivation for an evaporative system, its design and construction are discussed. In detail the particular requirements of the ATLAS inner detector, technical choices and the qualification and manufacture of final components are addressed. Finally results of initial operational tests are reported. Although the entire system described, the paper focuses on the on-detector aspects. Details of the evaporative cooling plant will be discussed elsewhere.

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The integration and engineering of the ATLAS SemiConductor Tracker Barrel

Abdesselam¹,

Allport²,

Anastopoulos³

et al. 2008

J. Inst.

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The ATLAS SemiConductor Tracker (SCT) was built in three sections: a barrel and two end-caps. This paper describes the design, construction and final integration of the barrel section. The barrel is constructed around four nested cylinders that provide a stable and accurate support structure for the 2112 silicon modules and their associated services. The emphasis of this paper is directed at the aspects of engineering design that turned a concept into a fully-functioning detector, as well as the integration and testing of large sub-sections of the final SCT barrel detector. The paper follows the chronology of the construction. The main steps of the assembly are described with the results of intermediate tests. The barrel service components were developed and fabricated in parallel so that a flow of detector modules, cooling loops, opto-harnesses and Frequency-Scanning-Interferometry (FSI) alignment structures could be assembled onto the four cylinders. Once finished, each cylinder was conveyed to the next site for the mounting of modules to form a complete single barrel. Extensive electrical and thermal function tests were carried out on the completed single barrels. In the next stage, the four single barrels and thermal enclosures were combined into the complete SCT barrel detector so that it could be integrated with the Transition Radiation Tracker (TRT) barrel to form the central part of the ATLAS inner detector. Finally, the completed SCT barrel was tested together with the TRT barrel in noise tests and using cosmic rays. KEYWORDS: Particle tracking detectors; Solid state detectors; Detector design and construction technologies and materials; Large detector systems for particle and astroparticle physics.

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The Calibration of the Minos Detectors

Nichol¹,

Adamson²,

Alner³

et al. 2003

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Thin scintillating tiles with high light yield for the OPAL endcaps

Aguillion¹,

Anderson²,

Attree³

et al. 1998

Nuclear Instruments and Methods in Physics Research Section A:

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D. Attree

The International Large Detector: Letter of Intent

The evaporative cooling system for the ATLAS inner detector

The integration and engineering of the ATLAS SemiConductor Tracker Barrel

The Calibration of the Minos Detectors

Thin scintillating tiles with high light yield for the OPAL endcaps

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