Experience Report with the Alignment Diagnostic System Georg Gassner September 17 th 2010.

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Presentation transcript:

Experience Report with the Alignment Diagnostic System Georg Gassner September 17 th 2010

LCLS Overview MEC CD-1 DOE Review- Jan 12, 2010 John N. Galayda 2 Linac Coherent Light Source at SLAC Injector (35º) at 2-km point Existing 1/3 Linac (1 km) (with modifications) Near Experiment Hall Far Experiment Hall Undulator (130 m) X-FEL based on last 1-km of existing 3-km linac New e  Transfer Line (340 m) Å ( GeV) X-ray Transport Line (200 m) UCLA

Undulator System Quadrupole Hydrostatic Leveling Sensor 3.4m undulator magnet Wire Position Monitor CAM based 5 DOF Motion control X-translation(in/out) Sand-filled Thermally Isolated Supports Experience report with the Alignment Diagnostic System Page 3

Experience report with the Alignment Diagnostic System Page 4 Goal of the Alignment Diagnostic System 2005 Question: Do we know how stable the LCLS tunnel and the Undulator will be? Answer: No, we don’t! Advice: Install a girder position monitoring system… i Undulator: 33 Girder, 132 m X-pos Y-pos Resolution:< One Micrometer Measurement duration: > Weeks, no drifts Building Blocks: Hydrostatic Leveling System (HLS) for Y - direction. Experience: SLAC Wire Position Monitors (WPM) for the X & Y direction.* Experience: SLAC * Original design from DESY as contribution to the FFTB experiment at SLAC, and track each girder relative to the Least Square Fit of all girders!

Alignment Diagnostics System WPM and HLS operates as one system, called Alignment Diagnostic System, ADS WPM measures: X and Y- positions relative to two stretched wires HLS measures: Y - Positions relative to the water surface level Common Task: X & Y Positon monitoring of undulator segments Resolution: < micrometer Data rate:every minute Operation: continous Experience report with the Alignment Diagnostic System Page mm

Results: Two days of tracking– no cam or stage movement Experience report with the Alignment Diagnostic System Page 6 10 µm 2010/3/8 0: /3/10 0: /3/9 0:00 Hydrostatic leveling sensor readings - vertical

Results: Two days of tracking– no cam or stage movement Experience report with the Alignment Diagnostic System Page 7 10 µm 2010/3/8 0: /3/10 0: /3/9 0:00 Wire position sensor readings - vertical

Results: Two days of tracking– no cam or stage movement Experience report with the Alignment Diagnostic System Page 8 10 µm 2010/3/8 0: /3/10 0: /3/9 0:00 ADS response - vertical Stretched wire Undulator hall below ground

Results: Two days of tracking– no cam or stage movement Experience report with the Alignment Diagnostic System Page 9 10 µm 2010/3/8 0: /3/10 0: /3/9 0:00 Wire position sensor readings - horizontal

Results: Two days of tracking– no cam or stage movement Experience report with the Alignment Diagnostic System Page µm 2010/3/8 0: /3/10 0: /3/9 0:00 ADS response - horizontal

Results: normal operation – moving girders Experience report with the Alignment Diagnostic System Page µm 2010/9/8 17: /9/9 17:37 ADS response - vertical

Water takes several hours to settle if movement is big enough to require water to redistribute Our pipes are mounted to the girder, if a girder moves all the water in the 4m pipe section has to redistribute Problem (1): HLS time delay Experience report with the Alignment Diagnostic System Page 12

Positions are given in respect to reference line which is the best fit solution. If one girder is moved deliberately this would change the reference line and indicate that all girders have moved. Problem (2): Best fit solution Experience report with the Alignment Diagnostic System Page 13 Girder positions Reference line

Positions are given in respect to reference line which is the best fit solution. If one girder is moved deliberately this would change the reference line and indicate that all girders have moved. Problem (2): Best fit solution Experience report with the Alignment Diagnostic System Page 14 Girder positions Reference line

Positions are given in respect to reference line which is the best fit solution. If one girder is moved deliberately this would change the reference line and indicate that all girders have moved. Girder motions are communicated to the ADS system and taken into account in the adjustment Problem (2): Best fit solution Experience report with the Alignment Diagnostic System Page 15 Girder positions Reference line

Results: normal operation – moving girders Quick response mode Experience report with the Alignment Diagnostic System Page µm 2010/9/8 17: /9/9 17:37 ADS response - vertical

Results: normal operation – moving girders Quick response mode Experience report with the Alignment Diagnostic System Page µm 2010/9/8 17: /9/9 17:37 ADS response - vertical

Summary Experience report with the Alignment Diagnostic System Page 18 ADS achieved original goal of monitoring quadrupole position to the micrometer level Add-ons: –Cam/stage system motion is taken into account for reference line fit. -Since girders are moved by tens of µm, a “quick response” algorithm to monitor the girder position short term had to be added.

The End

Introduction Text goes here. –Since 2009 an Alignment Diagnostic System (ADS) has been operating at the undulator of the new Linac Coherent Light Source at SLAC National Laboratory. The undulator spans a distance of 132 meters and is structured into 33 segments. Each segment is equipped with four hydrostatic leveling sensors and three wire position monitors. This report describes the set up and reflects long time experience gained with ADS. Experience report with the Alignment Diagnostic System Page 20

Wire Position Monitor * Experience report with the Alignment Diagnostic System Page 21 Monitor Length 74Millimeter Monitor GAP 8 Millimeter Square * Original design from DESY as contribution to the FFTB experiment at SLAC, 1991

LCLS - WPM system sensitivity – e.g. response on social noise - Experience report with the Alignment Diagnostic System Page th 19.6 Hz 1 st 1.3 Hz 2 nd 2.6 Hz 3 rd 3.9 Hz 4 th 5.2 Hz 5 th 6.5 Hz 6 th 7.8 Hz 7 th 9.1 Hz 8 th 10.4 Hz 9 th 11.8 Hz 10 th 13.1 Hz 11 th 14.4 Hz 12 th 15.7 Hz 13 th 17.0 Hz 14 th 18.3 Hz 2 nd and higher even harmonics missing Monitor at the middle of the 140 m wire Monitor outside the middle of the 140 m wire Hz: µm 3.95 Hz: µm Hz: µm X Y X Y 2 nd and higher even harmonics visible Frequency analysis of the 140 m stretched wire seconds of data acquisition -

Integration of ADS to girder: Artist view Experience report with the Alignment Diagnostic System Page 23 Drawing: Courtesy by Scott Doran, ANL Ultra sonic Capacitive WPM