ATLAS IBL: a challenging first step for ATLAS Upgrade at the sLHC

TL;DR

The paper discusses the development and integration of the Insertable B-Layer (IBL) for the ATLAS detector upgrade, addressing technological challenges and expected performance improvements for the HL-LHC era.

Contribution

It introduces the IBL project, detailing new sensor technologies and design innovations for the first ATLAS upgrade stage at the HL-LHC.

Findings

Successful development of new silicon sensor technologies

Design validation of IBL modules

Anticipated performance enhancements for ATLAS

Abstract

With the LHC collecting data at 7 TeV, plans are already advancing for a series of upgrades leading eventually to about five times the LHC design luminosity some 10 years from now in the High Luminosity LHC (HL-LHC) project. The upgrades for ATLAS detector will be staged in preparation for HL-LHC. The first upgrade for the Pixel Detector will be the construction of a new pixel layer, which will be installed during the first shutdown of the LHC machine foreseen in 2013-14. The new detector, called the Insertable B-Layer (IBL) will be installed between the existing Pixel Detector and a new, smaller radius beam-pipe at the radius of 3.2 cm. The IBL will require the development of several new technologies to cope with increased radiation and pixel occupancy and also to improve the physics performance through reduction of the pixel size and more stringent material budget. Two different and promising Silicon sensor technologies (planar n-in-n and 3D) are currently under investigation for the IBL. An overview of the IBL module design and the qualification for these sensor technologies are presented in this proceeding. This proceeding also summarizes the improvements expected to the ATLAS detector at the HL-LHC.