The BRAN luminosity detectors for the LHC

TL;DR

The paper details the design, implementation, and operational performance of the BRAN luminosity detectors at the LHC, which monitor real-time luminosity using gas ionization chambers capable of handling high radiation and bunch rates since 2009.

Contribution

It introduces the BRAN detectors' design, technical choices, and successful deployment for real-time luminosity monitoring at the LHC's high luminosity regions.

Findings

Detectors operate effectively at luminosities exceeding initial design goals.

They resolve bunch-by-bunch luminosity at 40 MHz rate.

The system has been successfully used in various collision modes.

Abstract

This paper describes the several phases which led, from the conceptual design, prototyping, construction and tests with beam, to the installation and operation of the BRAN (Beam RAte of Neutrals) relative luminosity monitors for the LHC. The detectors have been operating since 2009 to contribute, optimize and maintain the accelerator performance in the two high luminosity interaction regions (IR), the IR1 (ATLAS) and the IR5 (CMS). The devices are gas ionization chambers installed inside a neutral particle absorber 140 m away from the Interaction Points in IR1 and IR5 and monitor the energy deposited by electromagnetic showers produced by high-energy neutral particles from the collisions. The detectors have the capability to resolve the bunch-by-bunch luminosity at the 40 MHz bunch rate, as well as to survive the extreme level of radiation during the nominal LHC operation. The devices have operated since the early commissioning phase of the accelerator over a broad range of luminosities reaching 1.4*10^34 cm-2 s-1 with a peak pileup of 45 events per bunch crossing. Even though the nominal design luminosity of the LHC has been exceeded, the BRAN is operating well. After describing the multiple applications that the BRAN can be used to monitor the luminosity of the accelerator, we discuss the technical choices that led to its construction and the different tests performed prior to the installation in two IRs of the LHC. Performance simulations are presented together with operational results obtained during p-p operations, including runs at 40 MHz bunch rate, Pb-Pb operations and p-Pb operations.