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Education Thesis: Layout and design of a high accuracy magnetic field measurement system for superconducting undulators. Thesis: Phase error reduction.

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Presentation on theme: "Education Thesis: Layout and design of a high accuracy magnetic field measurement system for superconducting undulators. Thesis: Phase error reduction."— Presentation transcript:

1 Education Thesis: Layout and design of a high accuracy magnetic field measurement system for superconducting undulators. Thesis: Phase error reduction in superconductive undulators. Daniel Wollmann 1 2000 Begin of studies Electrical Engineering (Diplom/Master) 2003-2004 Foreign studies & Student thesis 2005 Diplom thesis & End of studies 2006-2008 PhD in Accelerator Physics Physics (PhD) 2009 Postdoc Fellow 3 months Carl Zeiss Stiftung 2009-2011 Postdoc Fellow LHC Collimation Thesis: A Novel Concept for Phase Error Correction in Superconductive Undulators

2 Superconductive Undulator Development (PhD at KIT, Karlsruhe, Germany) Team (~10): Prof. T. Baumbach, A. Bernhard, S. Casalbuoni, E. Mashkina (U Erlangen), R. Rossmanith, … Electron beam operation and beam measurements with the installed superconductive undulator (SCU14) at ANKA. Design and development of superconductive magnets (wigglers, undulators) for the production of highly brilliant synchrotron light (SCU-15 for ANKA): 3D-FEM simulations (Opera 3D, static and dynamic), Monte-Carlo simulation. Participation in the construction of an undulator test coil for field error compensation experiments (KIT - CERN). Daniel Wollmann 2

3 Superconductive Undulator Development (PhD at KIT, Karlsruhe, Germany) Development and experimental verification of a novel field error correction scheme based on superconductive closed loops (Induction-Shimming): –D. Wollmann et al., PRSTAB, 11:100702, 2008; PRSTAB, 12:040702, 2009 –European Patent (EP 2 279 650 A1, 02.02.2011); German Patent (10 2010 012 073.1-54, pending) Daniel Wollmann 3 Simplified model Experimental setup for Magnetic field measurements Prototype device

4 LHC Collimation (Postdoc Fellow, CERN, BE-ABP) Team (~9): R.W. Assmann, R. Bruce, L. Lari, A. Rossi, S. Redaelli, 3 PhD students, 1 Master student. Proton beam operation (LHC) during beam commissioning, setups and regular qualifications (2009, 2010, 2011). Further development of top-level collimation control system. Machine protection responsibility (Safety critical RBAC role, MP checklist for LHC intensity increase). Data taking and data analysis for qualification (loss maps) and performance improvement of the collimation system (JAVA, Mathematica, Matlab). Particle tracking simulations (MAD-X, SixTrack) to improve the understanding and optimize upgrades of the LHC collimation system Daniel Wollmann 4 shaving of the beams during setup Loss map (qualification)

5 LHC Collimation (Postdoc Fellow, CERN, BE-ABP) Planning and performing of experiments (MDs) in the LHC and the SPS in close collaboration with different groups at CERN (e.g. DS quench test, SPS-MDs on collimators with in-jaw BPM buttons, Halo population). Scientific secretary in the the collimation upgrade project: involvement in project management (organize meetings, def. work packages, milestones, follow-up on action items, etc.). Co-supervision of Master and PhD students (def. topic of thesis, follow-up on progress, provide help for the understanding of physics, simulations and methods for data analysis). Daniel Wollmann 5 Simulations versus Measurements Measured horizontal beam distribution

6 Future LHC beam related performance limiting issues (e.g. measure quench limits). LHC magnet power converter related performance limiting issues (e.g. simulations for CSCM). LHC operational follow-up. Collimators with in-jaw BPM buttons (beam based qualification of prototypes in the SPS / LHC). Material tests (HiRadMat) … Daniel Wollmann 6

7 End Daniel Wollmann 7

8 Backup Slides Daniel Wollmann 8

9 Field errors in superconductive undulators and wigglers Daniel Wollmann 9 Field errors disturb the trajectory of the electrons: Reduction of spectral quality of the emitted synchrotron radiation. Emittance growth (beam size). Main source: Mechanical tolerances (Variation of pole, wire bundle position and period length). Field error correction (shimming) needed. FEM and Monte- Carlo simulations

10 Faraday’s law of induction Daniel Wollmann 10 Theory of electro-magnetic fields System modeling Hardware design  Superconductive closed loop  change of the external magnetic flux through the surface surrounded by the loop  current induced into the loop which opposes the change of the external magn. flux  use for correction of field errors  ”Induction Shimming” The loop equalizes the magnetic flux in the two half periods. 7 loop test system (YBCO on Sapphire) Rectangular Model: D. Wollmann, A. Bernhard, P. Peiffer, T. Baumbach, and R. Rossmanith; Physical Review Special Topics Accelerators and Beams, 11:100702, 2008.

11 Measurement - Setup Test coil and slide Daniel Wollmann 11 Experimental setup Magnetic field measurements

12 Measurement: Variation of adjacent extrema at different currents in test coil Daniel Wollmann 12 Variation strongly reduced in all cases. D. Wollmann, A. Bernhard, P. Peiffer, T. Baumbach, E. Mashkina, A. Grau, and R. Rossmanith. Physical Review Special Topics Accelerators and Beams, 12:040702, 2009. Data analysis and interpretation

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