MONALISA Update David Urner ATF2 Meeting Dec 19 2007.

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Presentation transcript:

MONALISA Update David Urner ATF2 Meeting Dec

David Urner Paul Coe Matthew Warden Armin Reichold MONALISA Monitoring, Alignment & Stabilisation with high Accuracy

MONALISA at ATF2 MONALISA: measures 6D position of two objects separated by several meters with a precision of nanometres –Using interferometers ATF: Objects are QD0 and Shintake monitor At Oxford we have developed a distance meter with –better than 1 micron absolute distance resolution –Nanometre relative distance resolution Need now to develop compact straightness monitor to measure 6D position

CSM (Compact Straightness Monitor) 6D position transferred from left to right –breaking of symmetries is important Preliminary simulation results of CSM Resolution: –  y :10nm – distance meter resolution: 1nm –Positional change of optics components with respect to each other: 1nm That’s the challenge. 10cm 5cm 100cm

Multi-fibre read out (compact launch) Fixed frequency laser (FFI) Compact Launch: 25x25x15mm Test shown here with moving mirror The “real” setup will use retro-reflector - easier for setup! FFI: Fixed Frequency Interferometry (OPD 400mm)

Multi-fibre read out (compact launch) Fixed frequency laser (FFI) Compact Launch: 25x25x15mm Test shown here with moving mirror First stationary mirror test : - resolution 5 nm demonstrated - to be improved with vaccuum - and laser frequency stabilisation Time (hours) Displacement /  m Displacement / nm  =4.5nm FFI: Fixed Frequency Interferometry (OPD 400mm)

Multi-fibre read out (compact launch) Fixed frequency laser (FFI) Compact Launch: 25x25x15mm Test shown here with moving mirror First stationary mirror test : - resolution 5 nm demonstrated - to be improved with vaccuum - and laser frequency stabilisation Time (hours) Displacement /  m Displacement / nm  =4.5nm FFI: Fixed Frequency Interferometry (OPD 400mm)

Simplified Schematic: Need 20 kHz stability for 1nm over distances of 10m. NPL done ~kHz. Frequency stabilisation Frequency standard: 87 Rb D 2 line at 780 nm

Multi-fibre read out (compact launch) Fixed frequency laser (FFI) Compact Launch: 25x25x15mm Test shown here with moving mirror First stationary mirror test : - resolution 5 nm demonstrated - to be improved with vaccuum - and laser frequency stabilisation - temperature and pressure dependence look reasonable Time (hours) Displacement /  m Time (hours) Displacement /  m Displacement / nm  =4.5nm FFI: Fixed Frequency Interferometry (OPD 400mm)

 =750nm Multi-fibre read out (compact launch) Same interferometer can be used for FSI Better resolution by just covering interferometer with box - expect to do even better in vacuum!  =750nm  =70nm Add box to reduce air turbulence FSI:Frequency Scanning Interferometry (OPD 400mm)

LiCAS Reference Interferometers Frequency Scanning Interferometry –long line reference interferometers show world leading resolution –Using single non-stepped readout Mean: m Stand. Dev.: m Fig. 2 Repeatability of FSI Ref. Interf. measurements

Dual Laser FSI Known Fundamental limitation on Resolution: Drift errors during scan (~1s) Solution: Use two lasers scanning in opposite direction. –Second laser being purchased as I speak. –Some test data taken during tryout. Modulate two lasers with different frequencies – demodulate with electronics Use different tuning speeds resulting in different FSI frequencies

Opposite tuning Lasers Using two evacuated LiCAS reference interferometers: 6.25m OPD. –Separation easy –Resolution improves

Progress Hardware –Built novel Interferometer designs –Pioneered new phase measurement techniques –Vacuum vessel to demonstrate nm precision currently being vacuum tested –Tested compact launch optics Software –Developed novel phase analysis technique –Collaborated with LiCAS on OO analysis package –Developed binary file format for data handling users MonAliSA, LiCAS and ATLAS (FSI)... Available in Java, C and LabVIEW

Shintake Monitor and Optical Table for Final Doublet Support so far Find MONLISA support structure: –Not attached to present support structures –Rigid to not induce unwanted vibration –Fit into overall footprint

Plan View ElevationEnd View Overview of Current Design

Enlarge View on “Elevation”

Plan View with Non- Oxford Parts faded

Enlarged view on “End View”

Plan View showing clamping arrangement of the vacuum tubes & the main supporting arch frame faded for clarity

Conclusion CSM design started Vacuum test vessel ready. Promising results on both FFI and FSI front Frequency Stabilization Concept finished Converging towards practical mounting structure.