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Publication
Featured researches published by Lukas Malina.
Journal of Physics: Conference Series | 2017
S. Fartoukh; D Mirarchi; Stefano Redaelli; D Valuch; J Coello De Portugal; Lukas Malina; Piotr Skowroński; Ana Garcia-Tabares; J. Wenninger; Tobias Persson; M Pojer; R Tomas; L Ponce; A Mereghetti; Ewen Hamish Maclean; Andreas Wegscheider; Roderik Bruce; M Solfaroli; B Salvachua; Felix Simon Carlier
The Achromatic Telescopic Squeezing (ATS) [1] scheme offers new techniques to deliver unprecedentedly small beam spot size at the interaction points of the ATLAS and CMS experiments of the LHC, while perfectly controlling the chromatic properties of the corresponding optics (linear and non-linear chromaticities, off-momentum beta-beating, spurious dispersion induced by the crossing bumps). The first series of beam tests with ATS optics were achieved during the LHC Run I (2011/2012) for a first validation of the basics of the scheme at small intensity. In 2016, a new generation of more performing ATS optics was developed and more extensively tested in the machine, still with probe beams for optics measurement and correction at β∗ = 10 cm, but also with a few nominal bunches to establish first collisions at nominal β∗ (40 cm) and beyond (33 cm), and to analysis the robustness of these optics in terms of collimation and machine protection. The paper will highlight the most relevant and conclusive results which were obtained during this second series of ATS tests.
7th International Particle Accelerator Conference (IPAC'16), Busan, Korea, May 8-13, 2016 | 2016
Lukas Malina; R. Corsini; Davide Gamba; Tobias Persson; Piotr Skowroński
The proposed Compact Linear Collider (CLIC) uses a high intensity, low energy drive beam producing the RF power to accelerate the low intensity main beam with 100 MeV/m gradient. This scheme puts stringent requirements on drive beam stability in terms of phase, energy and current. Finding and understanding the sources of jitter plays a key role in their mitigation. In this paper, we report on the recent studies in the CLIC Test Facility (CTF3). New jitter and drift sources were identified and adequate beam-based feed-backs were implemented and commissioned. Finally, we present the resulting improvement of drive beam stability.
Physical review accelerators and beams | 2017
Tobias Persson; Lukas Malina; A C García Bonilla; Andy Langner; Piotr Skowroński; A Garcia-Tabares Valdivieso; J Coello de Portugal; Rogelio Tomás; B Salvant; Felix Simon Carlier; Ewen Hamish Maclean
Physical review accelerators and beams | 2017
Lukas Malina; Tobias Persson; J Coello de Portugal; Andrea Franchi; S Liuzzo; Piotr Skowroński; Rogelio Tomás
Archive | 2016
Ana Garcia-Tabares Valdivieso; Piotr Skowroński; Lukas Malina; Rogelio Tomas Garcia; Jaime Maria Coello De Portugal Martinez Vazquez; Belén Salvachua Ferrando; J. Wenninger; Matteo Solfaroli Camillocci
IPAC 2013: Proceedings of the 4th International Particle Accelerator Conference | 2013
Alexey Dubrovskiy; Lukas Malina; Piotr Skowroński; Frank Tecker; Tobias Persson
7th Int. Particle Accelerator Conf. (IPAC'16), Busan, Korea, May 8-13, 2016 | 2016
Ana Garcia-Tabares; Felix Simon Carlier; Jaime Maria Coello de Portugal; Andy Sven Langner; Ewen Hamish Maclean; Lukas Malina; Tobias Persson; Piotr Skowroński; Matteo Solfaroli Camillocci; R. Tomas
7th Int. Particle Accelerator Conf. (IPAC'16), Busan, Korea, May 8-13, 2016 | 2016
Lukas Malina; Jaime Maria Coello de Portugal; Laurent Farvacque; Andrea Franchi; Andy Langner; Tobias Persson; Piotr Skowroński; Rogelio Tomás
Archive | 2018
Ana Garcia-Tabares Valdivieso; Ewen Hamish Maclean; Lukas Malina; Rogelio Tomas Garcia; Elena Fol; Andreas Wegscheider; Felix Simon Carlier; Helmut Burkhardt; Jaime Maria Coello De Portugal Martinez Vazquez
Archive | 2018
Lukas Malina; Matthew Toplis; Jaime Maria Coello de Portugal; Piotr Skowroński; Rogelio Tomás; Joschua Werner Dilly
