Dr Hector Garcia-Morales

Beam cleaning in experimental irs in HL-LHC for the incoming beam

6th International Particle Accelerator Conference, IPAC 2015 (2015) 2181-2183

Authors:

H Garcia-Morales, R Bruce, S Redaelli

Abstract:

The HL-LHC will store 675 MJ of energy per beam, about 300 MJ more than the nominal LHC. Due to the increase in stored energy and a different interaction region (IR) optics layout, the collimation system for the incoming beam must be revisited in order to avoid dangerous losses that could cause quenches or machine damage. This paper studies the effectivenessof the current LHC collimation system in intercepting cleaning losses close to the experiments in the HL-LHC. The study reveals that additional tertiary collimators would be beneficial in order to protect not only the final focusing triplets but also the two quadrupoles further upstream.

Beam delivery simulation-recent developments and optimisation

6th International Particle Accelerator Conference, IPAC 2015 (2015) 499-501

Authors:

J Snuverink, ST Boogert, H Garcia-Morales, SM Gibson, R Kwee-Hinzmann, LJ Nevay, J Adams, LC Deacon

Abstract:

Beam Delivery Simulation (BDSIM) is a particle tracking code that simulates the passage of particles through both the magnetic accelerator lattice as well as their interaction with the material of the accelerator itself. The Geant4 toolkit is used to give a full range of physics processes needed to simulate both the interaction of primary particles and the production and subsequent propagation of secondaries. BDSIM has already been used to simulate linear accelerators such as the International Linear Collider (ILC) and the Compact Linear Collider (CLIC), but it has recently been adapted to simulate circular accelerators as well, producing loss maps for the Large Hadron Collider (LHC). In this paper the most recent developments, which extend BDSIM's functionality as well as improve its efficiency are presented. Improvement and refactorisation of the tracking algorithms are presented alongside improved automatic geometry construction for increased particle tracking speed.

Beam delivery simulation: BDSIM - Development & optimisation

IPAC 2014: Proceedings of the 5th International Particle Accelerator Conference (2014) 182-184

Authors:

LJ Nevay, ST Boogert, H Garcia-Morales, SM Gibson, R Kwee-Hinzmann, J Snuverink, LC Deacon

Abstract:

Beam Delivery Simulation (BDSIM) is a Geant4 and C++ based particle tracking code that seamlessly tracks particles through accelerators and detectors, including the full range of particle interaction physics processes from Geant4. BD-SIM has been successfully used to model beam loss and background conditions for many current and future linear accelerators such as the Accelerator Test Facility 2 (ATF2) and the International Linear Collider (ILC). Current developments extend its application for use with storage rings, in particular for the Large Hadron Collider (LHC) and the High Luminosity upgrade project (HL-LHC). This paper presents the latest results from using BDSIM to model the LHC as well as the developments underway to improve performance.

Localisation of beam offset jitter sources at ATF2

IPAC 2014: Proceedings of the 5th International Particle Accelerator Conference (2014) 1049-1051

Authors:

J Pfingstner, H Garcia-Morales, A Latina, M Patecki, D Schulte, R Tomás

Abstract:

For the commissioning and operation of modern particle accelerators, automated error detection and diagnostics methods are becoming increasingly important. In this paper, we present two such methods, which are capable of localising sources of beam offset jitter with a combination of correlation studies and so called degree of freedom plots. The methods were applied to the ATF2 beam line at KEK, where one of the major goals is the reduction of the beam offset jitter. Results of this localisation are shown in this paper. A big advantage of the presented method is its high robustness especially to varying optics parameters. Therefore, we believe that the developed beam offset jitter localisation methods can be easily applied to other accelerators.