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Accelerator Physicist

CERN Organisation Européenne pour la Recherche Nucléaire
Date de publication


Master's degree or PhD or equivalent relevant experience in the field of physics or engineering or a related field.

The experience required for this position is:
Experience in the field of physics or engineering (or equivalent) with a first relevant experience in a scientific environment preferably in the design and/or operation of particle accelerators.
Experience of accelerator physics, with demonstrated ability in the field of non-linear beam dynamics and/or collimation concepts.
Experience of experimental techniques and analysis of data from beam measurements.
Experience with development of single-particle beam dynamics simulation codes.

Experience with any of the following is considered an asset:
Experience with one of the following codes: mAD-X (see here http://madx.web.cern.ch/madx/), SixTrack (see here http://sixtrack-ng.web.cern.ch/sixtrack-ng/).
Experience of massive numerical simulations with modern simulations codes.
Experience of experimental techniques and analysis of data from beam measurements.
Experience with beam commissioning and performance optimization of existing facilities.

Technical competencies:
Knowledge and application of single-particle dynamics (longitudinal/transverse).
Analysis and optimization of accelerator performance.
Knowledge and application of non-linear beam dynamics.
Knowledge and application of collimation systems.
Simulation, design and development of particle accelerators.

Job Description

Are you an Accelerator Physicist or Engineer experienced in single-particle non-linear beam dynamics effects and advanced collimation techniques, and interested in working in an exciting international environment at the forefront of modern science? Would you like to work on the study of non-linear beam dynamics and advanced collimation techniques for CERN present and future accelerators? Then Take Part and join one of the teams that help to deliver unique particle beams used by physicists from all over the world to answer questions at the heart of particle physics!

You will join:
The Accelerators and Beam Physics (ABP) group, part of the Beams department (BE), in charge of beam performance over the complete CERN accelerator chain, from the source to the Large Hadron Collider (LHC) and carries out Research & Development (R&D) activities on the upgrade of the LHC, its injectors, the Compact Linear Collider (CLIC), and Future Circular Colliders study (FCC). Click here for an animation of the CERN accelerator network.

The Hadron Synchrotron’s Single Particle effects (HSS) Section is in charge of theoretical, numerical, and experimental studies of optics, hadron beam collimation, and linear and non-linear single-particle effects, affecting the performance of present and future hadron synchrotrons.

The design of new accelerators at the high-intensity frontier and the performance optimization of existing ones requires the development of accurate and predictive models of non-linear beam dynamics to estimate beam lifetime, diffusion, and halo generation and advanced beam collimation schemes. You will play a key role in the development of the theory and simulation tools associated to these studies.

As Accelerator Physicist in the BE-ABP-HSS Section, you will participate in the activities related with non-linear single particle beam dynamics and advanced collimation studies for the LHC, its upgrade, and future circular colliders. This includes activities on both theoretical developments, numerical simulations, and measurements in the existing CERN machines.

You will:
Develop concepts from the domain of non-linear beam dynamics in view of evaluating halo generation and loss mechanisms and perform optimisation of performance.
Develop novel concepts to design improved collimation systems based on new approaches, such as crystals and hollow electron lenses.

After a period of familiarisation you will:
Contribute to the studies to apply advanced concepts of non-linear beam dynamics to the performance analysis and optimisation of circular colliders in general, with emphasis on LHC and its upgrade.
Contribute to the studies to develop collimation and halo-removal techniques using novel technologies, such as hollow electron lens and bent crystals.
Design and conduct experiments in the existing CERN machines to validate the concepts developed.
Participate in the commissioning of crystal collimation in the LHC Run 3 and beyond, including studies of applications at future facilities.

Employment Conditions
Contract type: Limited duration contract (5 years). Subject to certain conditions, holders of limited-duration contracts may apply for an indefinite position.

These functions require:
Work during nights, Sundays and official holidays, when required by the needs of the Organization.