A polarized solid state target for photon induced double polarization experiments at ELSA H. Dutz TR16 Bommerholz 06 - 1 - Hartmut Dutz, S. Goertz, A.

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Presentation transcript:

A polarized solid state target for photon induced double polarization experiments at ELSA H. Dutz TR16 Bommerholz Hartmut Dutz, S. Goertz, A. Raccanelli, A. Wagner, F. Zarife Status of the project ‚Polarisierte Festkörpertargets‘ D.1 Bonn A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction Status ELSA New Cryostat Internal Magnet Conclusion

>Introduction Status ELSA New Cryostat Internal Magnet Conclusion Status of the project ‚Polarisierte Festkörpertargets‘ D.1 Bonn H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn TR16 request 11/2003 D Work Program (Goals, Methods, Timetable) ‚GDH – Frozen Spin Target‘ at Crystal Barrel ‚4  – continuous mode‘ polarized solid state target development of an internal superconducting solenoid

>Introduction Status ELSA New Cryostat Internal Magnet Conclusion H. Dutz TR16 Bommerholz Horizontal frozen spin target ‚GDH – Frozen Spin Target‘ Bonn/Mainz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Specially designed for the GDH MAMI and ELSA

>Introduction Status ELSA New Cryostat Internal Magnet Conclusion H. Dutz TR16 Bommerholz Circular / linear polarized tagged photons (10 7  /s) Longitudinal polarized nucleons CB-ELSA 2006 … Horizontal frozen spin target ‚GDH – Frozen Spin Target‘ 5 proposals using polarized protons (ELSA-1,2,4,6,7) 1 proposal using polarized deuterons (ELSA-3) A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn

>Introduction Status ELSA New Cryostat Internal Magnet Conclusion H. Dutz TR16 Bommerholz P MZ = 87.7 %  1.3% P BN = 83.4 %  1.1% Horizontal frozen spin target ‚GDH – Frozen Spin Target‘ Max. proton 2.5 Tesla (butanol) A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn

>Introduction Status ELSA New Cryostat Internal Magnet Conclusion H. Dutz TR16 Bommerholz P max ~ 72 % Horizontal frozen spin target ‚GDH – Frozen Spin Target‘ A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Max. deuteron 2.5 Tesla (butanol/ 6 LiD) P max ~ 30 %

>Introduction Status ELSA New Cryostat Internal Magnet Conclusion H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Horizontal frozen spin target ‚GDH – Frozen Spin Target‘  (p-but/d-but)  mk  ( 6 LiD)  mk Relaxation – times of various target materials

Introduction >Status ELSA New Cryostat Internal Magnet Conclusion H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn ‚CB – Frozen Spin Target‘ ELSA

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA New Cryostat Internal Magnet Conclusion ‚CB – Frozen Spin Target‘ ELSA

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn ‚CB – Frozen Spin Target‘ Status ELSA Introduction >Status ELSA New Cryostat Internal Magnet Conclusion Set-up completed  first cool down to 1 K in Oktober 26/ / Thermal contact between internal.rad. shield and Still has been fixed Next steps: cool down to 1K and into dilution mode activating NMR and microwaves polarizing Butanol and measure relaxation times

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA >New Cryostat Internal Magnet Conclusion ‚4  continuous mode target‘ Horizontal dilution refrigerator incl. internal polarizing magnet for CB Refrigerator in refrigerator system ( 4 He eva. - 3 He/ 4 He dil.) high cooling 300 mK opt. run as ‚frozen spin target‘ Tmin ~ 50 mK good angular acceptance (~ 4  ) high luminosity L ~ /cm²s (N  /s) high mean polarization good beam time efficiency

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA >New Cryostat Internal Magnet Conclusion ‚4  continuous mode target‘ Outer vacuum jacket

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA >New Cryostat Internal Magnet Conclusion ‚4  continuous mode target‘ Turbine like precooling stages

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA >New Cryostat Internal Magnet Conclusion ‚4  continuous mode target‘ Turbine like heat exchangers for the pre cooling stage

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA >New Cryostat Internal Magnet Conclusion ‚4  continuous mode target‘ Smooth transitions for HTSC – current leads evaporator – still shielding Self cooled Insert – sealing

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA >New Cryostat Internal Magnet Conclusion ‚4  continuous mode target‘ Still cone for smooth HTSC bending

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA >New Cryostat Internal Magnet Conclusion ‚4  continuous mode target‘ Internal superconducting polarizing magnet disc. final sintered heat exchanger

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA New Cryostat >Internal Magnet Conclusion ‚internal superconducting polarizing magnet‘ Requirements: High field (~2.5 T) + High homogeneity (ΔB/B ~10 -4 ) in the target region Constraints on: -Magnet thickness (particle absorption) -Number of Bias Leads (heat load) -Mechanical feasibility SC winding Target region Any FEM – model on the market: Requires a try and error (manual) approach and has a poor flexibility old Feld.c – code failed Hom. volume ~ mag. volume

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA New Cryostat >Internal Magnet Conclusion ‚internal superconducting polarizing magnet‘ A. Raccanelli, F. Zarife, in collaboration with R. Krause, IAM-Bonn Allows one to study the effect on the field homogeneity of: - Limited accuracy in the winding - Irregularities (random variations in the coil number in a layer) - SC wire diameter Allows the implementation of optimization algorithms A new code performing integration on the actual coils Calculations need to be tested / proofed

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA New Cryostat >Internal Magnet Conclusion ‚internal superconducting polarizing magnet‘ Status High field holding coil: K Field mapping system, flux gate magnetometer

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn ‚internal superconducting polarizing magnet‘ Introduction >Status ELSA New Cryostat >Internal Magnet Conclusion Next Steps: JLAB transverse coil (failed 2006): Horizontal polarizing coils: simulate, wind and test NC coils transverse holding coil : saddle coils, racetrack type, field ~ 0.5 T only in ‘frozen spin mode’

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction Status ELSA New Cryostat Internal Magnet >Conclusion Conclusions / Outlook ‚CB – frozen spin target‘ has been proofed as a reliable tool to study double polarization ELSA ready for operation and data taking 4  – continuous mode‘ target: Transverse field magnet project needs further serious investigation and dipl. – PhD - students ‘high luminosity, large acceptance’ polarized solid state target internal polarizing magnet no railway system required longitudinal polarization direction transverse polarization as a frozen spin target electron scattering experiments in a 4  detection system mechanically completed 2008/2009

>Introduction Status ELSA New Cryostat Internal Magnet Conclusion H. Dutz TR16 Bommerholz Horizontal frozen spin target ‚CB – Frozen Spin Target‘ A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA New Cryostat Internal Magnet Conclusion ‚CB – Frozen Spin Target‘ ELSA

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA New Cryostat Internal Magnet Conclusion ‚CB – Frozen Spin Target‘ ELSA

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn Introduction >Status ELSA New Cryostat Internal Magnet Conclusion ‚CB – Frozen Spin Target‘ ELSA

H. Dutz TR16 Bommerholz A polarized solid state target for photon induced double polarization experiments at ELSA Status of D.1 Bonn ‚4  continuous mode target‘ Status Introduction >Status ELSA >New Cryostat Internal Magnet Conclusion Next Steps: Design of the horizontal dilution refrigerator nearly completed Outer vacuum jacket is finished and vacuum tested Thin wall stainless steel tubing delivered or machined Turbine heat exchangers machined Inner cone machined and soldered Design of the final heat exchanger has to be completed Pre cooling stages (separator, evaporator) Dilution unit incl. design of the mixing chamber Assembling of the complete refrigerator Internal superconducting polarizing magnet Aim: mechanically completed 2008/2009