Catherine LeCocq, SLAC 09-27-06 Alignment Plan for the LCLS Undulator IWAA 2006,1 Alignment Plan for the LCLS Undulator Catherine.

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Presentation transcript:

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,1 Alignment Plan for the LCLS Undulator Catherine LeCocq, SLAC September 27, 2006 LCLS Overview Undulator Component Alignment Tolerances Support Undulator Hall Construction Plan Assembly of Girders Plan Tunnel Installation Sequence Alignment Possibilities after Installation LCLS Overview Undulator Component Alignment Tolerances Support Undulator Hall Construction Plan Assembly of Girders Plan Tunnel Installation Sequence Alignment Possibilities after Installation

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,2 Linac Coherent Light Source Near Hall Far Hall SLAC LINAC Undulator Injector

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,3 Undulator Layout ParameterSymbolValueUnit min. fundamental wavelength r 1.5Å undulator period length u 3.0cm nom. undulator parameterK3.5 peak fieldB pk 1.25T undulator segment lengthLsLs 3.4m number of segmentsNsNs 33 full undulator lengthLsLs 132m nom. undulator full pole gapg6.8mm long break lengthLlLl 0.898m short break lengthLsLs 0.470m number of quadrupolesNQNQ 33 number of BPMsN BPM 33+3 From Heinz-Dieter Nuhn

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,4 One Segment- Wall Side

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,5 One Segment- Aisle Side

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,6 Physics Requirements The x-ray FEL process requires: 1.Straightness of the electron beam trajectory: 2 μm rms through the LCLS undulator system 2.Alignment of the individual undulator segment with respect to the beam axis: 80 μm rms vertically 140 μm rms horizontally

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,7 Quadrupole Alignment Tolerance Budget

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,8 BFW Alignment Tolerance Budget

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,9 LCLS Construction Support

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,10 Magnetic Measurement Facility Floor plan divided into three functional areas Magnetic Measurements (± 0.1º C) Fiducialization and Assembly (± 1º C) Storage (± 2.5º C) LCLS-TN-04-1LCLS-TN-04-1 "Requirements for the Construction of the LCLS Magnetic Measurements Laboratory“ by Z. Wolf and R. Ruland. LCLS-TN-05-4LCLS-TN-05-4 "Earth's Magnetic Field Measurements for the LCLS Undulators.“ by K. Hacker and Z. Wolf. 4/3/06: MMF Beneficial Occupancy 7/3/06: MMF Qualified & Ready to Measure Production Undulators.

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,11 Kugler Bench for Undulator Tuning Construction in 2 parts: 2.0 m and 5.5 m Test for qualification: Verification of flatness and straightness of guide beam using a bi-axial auto-collimator with a resolution of 0.05 µrad. Verification of probe location accuracy using interferometric measurements and wire to better than 1 µm over the travel range.

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,12 Undulator Measurement Steps from Zack Wolf, Head of the Magnetic Measurement Group 1)Place undulator 2)Mechanically align undulator to bench 3)Magnetically align Hall probe to undulator 4)Perform any required large gap adjustments and re-align 5)Straighten the X and Y trajectories 6)Minimize phase errors 7)Perform phase matching 8)Determine K vs X, move probe to the X value which gives the specified K 9)Add fiducialization magnets to undulator ends, locate center of fiducialization magnets 10)Move undulator to CMM, finish fiducialization LCLS-TN-03-07: “ANL and DESY Undulator Tuning Procedures“ by Z. Wolf. LCLS-TN-05-10: “Test of Coordinate Transfer from Magnetic to Mechanical Reference for LCLS Undulator Fiducialization.“ by Y. Levashov and Z. Wolf.

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,13 Leitz Reference Model CMM Facts: Measuring range is 0.9 x 1.5 x 4.5 m Weight capacity is 3000 kg Resolution is 0.1 μm Repeatability is 1 μm Test for qualification: Accuracy formula:1.5μm+d(mm)/350 Weight test (2400 kg) Magnetic test (50 Gauss)

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,14 Tunnel Installation Sequence Establish survey network in empty UH Mark bolt-hole floor positions for pedestals Align pedestals Align girder without undulator segment Map all girder components including undulator segment Measure with portable HLS and WPM Perform the required moves Final map & initialization of ADS: ready for BBA

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,15 Undulator Hall Monument Layout wall monuments (with removable spherical target) floor monument (with removable spherical target) 6’ 1‘ stay-clear From Brian Fuss

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,16 Tunnel Network Simulation sD = 30 μm sh = 30 μm / D sv =50 μm /D sdh = 50 μm sz = 22 μm sx = 47 μm sy =46 μm UH Tunnel Start STA ft m SLOPE UH Tunnel West Side Thermal Barrier STA ft m Undulator Hall Tunnel BTH Beam Dump 24” Vertical Penetration (approx. position)

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,17 Alignment Diagnostic System (ADS) Goal: Monitoring of X, Y Position of each Quadruple Roll, Pitch and Yaw of each Undulator Segment Component Monitoring ToleranceValueUnit Horizontal / Vertical Quadrupole and BPM Positions0.7µmµm Roll of Undulator Segment1000µrad Pitch of Undulator Segment16µrad Yaw of Undulator Segment30µrad Composition: 2 wires spanning the whole undulator hall 1 water level system

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,18 Resolution< 100 nm in X & Y Direction Instrument Drift < 100 nm per day Moving Range ±1.5 mm in X & Y Direction Accuracy0.1 % of full Scale Availability Permanent, no Interrupts Wire Position Monitor System (WPM) Hydrostatic Leveling System (HLS) Precision < 1  m Instrument Drift ~1-2  m / month Accuracy < 0.1 % of full Scale Capacitive Sensor Ultrasound Sensor Precision < 0.1  m Instrument Drift potentially no drift Accuracy < 0.1 % of full Scale Availability: 10 minutes settling period after movement X and Y can be measured Y can be measured Alignment Diagnostics System – Sensors Owner: Franz Peters Owner: Georg Gassner

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,19 ADS Installation - Hardware HLS Piping CPVC (FM4910) 2” and 1” schedule 40 Pipe is supported by Unistrut® to avoid sag Bellows Gortiflex® GF-100B Small: max length 2”, min 1” Long: max length 10”, min 2” Bracket Nickel plated steel, machined out of standard angle 0.5” thickness WPM Wire Stainless Steel Gold plated (0.5 mm diameter) Frequency 100KHz Weight 35 kg Tube Brass 10 mm diameter

Catherine LeCocq, SLAC Alignment Plan for the LCLS Undulator IWAA 2006,20 End of Presentation