DORIS storage ring

1. DORIS storage ring • Olympus in the IP-region • Beam optic, changes on the lattice • Beam dimensions, Target cell • Synchrotron Radiation • Beam acceleration, Particle polarity • Machine studies Olympus technical review at DESY, F.Brinker

2. Geometry of the detector and the IP-region Olympus technical review at DESY, F.Brinker

3. View to the IP-region from outside with ARGUS on the left side Olympus technical review at DESY, F.Brinker

4. Top view with radiation shielding Olympus technical review at DESY, F.Brinker

5. Straight section from the arc to the IP Main source of synchrotron radiation Horizontal scraper Vertical scraper beam direction Olympus technical review at DESY, F.Brinker

6. New optic with a reduced beam size at the IP : from σx x σz = 3.7 x 0.7 mm2 to 1.1 x 0.3 mm2 Due to the asymmetry of the detector the target cell is not at the IP but at about 0.75 m Optical functions at the insertion devices and injection are kept nearly unchanged Olympus technical review at DESY, F.Brinker

7. Main Parameter Olympus technical review at DESY, F.Brinker

8. Horizontal Acceptance and Beam sizes at 4.5 and 2.3 GeV The acceptance is defined by the existing aperture limitations and limits the extend of any beam halo Olympus technical review at DESY, F.Brinker

9. vertical Acceptance and Beam sizes at 4.5 and 2.3 GeV Olympus technical review at DESY, F.Brinker

10. Vacuum system Adapter chambers new position new position valves to be removed current position current position Olympus technical review at DESY, F.Brinker

11. Synchrotron Radiation [B.Nagorny, A.Schmidt] About 60% of this could be shielded by the movable scaper stations Olympus technical review at DESY, F.Brinker

12. Synchrotron radiation at 4.5 GeV - dipole Linear power density: 24 W/cm W/cm² y [cm] 4 2 0 -2 -4 0 2 4 6 8 -8 -6 -4 -2 x [cm] Olympus technical review at DESY, F.Brinker

13. Injection for DORIS III and PETRA III 450 MeV Linac: Gun delivers electrons, which can be converted to positrons after half of the linac PIA : accumulation of several linac pulses to increase the bunch current DESY : 12.5 Hz / 7 GeV Synchrotron – a trigger generator allows the extraction at different energies to either Doris or Petra For OLYMPUS particle beams with electrons and positrons are needed with energies of 2.0 to 2.3 GeV The Linac, PIA and DESY are able to deliver both particles. The energy of the DESY synchrotron varies sinusoidal with a maximum energy of up to 7 GeV The extraction energy is defined by the peak energy and the timing of the extraction within the energy cycle. Both are variable. Modifications are needed for fast switching of the magnet polarity of DORIS and the transport. Olympus technical review at DESY, F.Brinker

14. Machine studies on February 7th • Injection into 10 bunches • Final current 170 mA after 6 minutes • Varying efficiency – probably due to effects at DESY: • DESY operated at normal maximum energy of 4.5 GeV • At 2.3 GeV the beam is not fully damped to its equilibrium emittance • Possibly beam blow up due to resonances Olympus technical review at DESY, F.Brinker

15. Machine studies on February 7th Stored beam with good conditions: • I = 150 mA • Lifetime = 8.5 hours Not so nice: Longitudinal beam excitation (oscillation with ~1cm Amplitude) Limits lifetime at higher currents maybe increased particle background Olympus technical review at DESY, F.Brinker

16. Machine shift Aug. 3rd Beam intensity limited to 120 mA in 10 Bunches , long. stable Olympus technical review at DESY, F.Brinker

17. Machine shift Sept. 9th 90%+ injection efficiency , 30 mA injected in 2 min. Olympus technical review at DESY, F.Brinker

18. Sept. 9th, horizontal scraper measurements beam core - gaussian profile halo ends at ≈ 19mm region of beam halo since the horizontal beam size at the IP is about a factor 2 smaller, the beam halo would extend to ± 10 mm from beam center results are preliminary, the scraper position has to be verified! Olympus technical review at DESY, F.Brinker

19. Sept. 9th, horizontal scraper measurements beam core - gaussian profile halo ends at ≈ 5.5 mm region of beam halo since the vertical beam size at the IP is about a factor 3 smaller, the beam halo would extend to ± 1.8 mm from beam center results are preliminary, the scraper position has to be verified! Olympus technical review at DESY, F.Brinker

20. topics for further studies: • stabilize ejection from synchrotron / improve transfer efficiency • find optimal working point for tunes • experiences with second long. feedback amplifier (installation at end of September) • investigate max. stable beam current (presently 120mA) • tests at 2.0 GeV Olympus technical review at DESY, F.Brinker

21. Infrastructure • Detector power supply • Detector cooling • Polarity switches • Kicker pulser • Preparation of the experimental hall • Modification of the IP region • Installation of Olympus Olympus technical review at DESY, F.Brinker

22. Detector power supply • A 10kV to 480V transformer is available and will be placed outside the experimental hall • The foundation has to be prepared • The 7000 A power supply from Petra has to be installed in the hall • The cabling to the transformer (10kV), to the power supply (2500A, 480V DC) and to the detector (7000A, 225V DC) has to be done mainly by an external company Olympus technical review at DESY, F.Brinker

23. Water cooling of toroid • The capacity of the cooling tower is sufficient • The cooling water circuit to ARGUS is still available • It’s now in use for the cooling of transport line magnets • The capacity of the circuit is sufficient for Olympus after smaller modifications ( 20 m of new tubes with larger cross section ) • The two installed pumps have to run in parallel • The pressure has to be reduced from 12 bar to 5 bar Cooling for the moved cavities is still available, the last few meters are missing Cold water for air conditioning is also available, tubes have to be laid Olympus technical review at DESY, F.Brinker

24. Electronics hutch Power-supply Trans-former Water cooling Olympus technical review at DESY, F.Brinker

25. Polarity switches • There are 46 main magnet power supplies at DORIS and the transport line • 12 of those are already replaced by bipolar devices • 10 devices with currents below 270A can be modified with polarity switches from HERA • The remaining 24 devices need new polarity switches, 14 devices for 400A and 10 devices for 800A • Cabinets, controls and cabling have to be done Olympus technical review at DESY, F.Brinker

26. Kicker pulser • The extraction/injection elements at DESY and DORIS have to be bipolar • The Septa can be modified accordingly • The Kicker ( 2 DORIS + 1 DESY ) need new power supplies and new pulsers which would be build at DESY Olympus technical review at DESY, F.Brinker

27. Preparation of the experimental hall • Part of the hall is in use for an DESY exhibition, these objects will be removed and partly find a new home in HERA hall west • The ARGUS detector will be disassembled and removed This work will start soon and should be finished by the end of this year Olympus technical review at DESY, F.Brinker

28. Modification RF-lab • An RF laboratory for testing of Tesla cavities is placed on the outside of the DORIS ring • A rectangular region of 2.5 x 9.5 m has to be cut out • Install dust cover • Remove walls • Cut ceiling and floor • Build new walls • Change installations ( crane, electricity, water etc.) This work can start in summer 2010, when the ongoing work in the laboratory is finished (earlier, if possible) Olympus technical review at DESY, F.Brinker

29. Modification of the IP region (1. shut down in winter 2010/11) • Move signal cables from IP region ( can be done in advance ) • Remove interlock installations • Remove shielding blocks • Remove accelerator components • Cavities, vacuum chambers • 4 quadrupoles • Girders • Install dust cover • Demolition work on parts of concrete Olympus technical review at DESY, F.Brinker

30. Modification of the IP region, cont. • Build up new shielding • Install new girders/support for experiment vacuum • Put in 6 new quadrupoles • Install vacuum system, including target chamber and new vacuum valves • Install cavities at the new position • Cabling, water connections • Install modified interlock system • Surveying Olympus technical review at DESY, F.Brinker

31. Installation of Olympus ( 2. shut down in summer 2011 ) • Remove part of shielding • Remove vacuum system between valves • Roll in the detector • Install vacuum chambers • Connect cooling water and electrical power • Rebuild shielding • Surveying • Interlock tests Olympus technical review at DESY, F.Brinker

32. Summary • The space for the detector is still available • Some modifications to the storage ring are necessary – but no “show-stoppers” are visible • A beam optic has been developed which should work for synchrotron radiation runs as well as for OLYMPUS • The most time consuming work takes place outside the Doris tunnel and needs no shutdown time • The modifications of the IP region can be done within 2 shutdown periods • The infrastructure for the experiment can be provided to a large extend with available equipement The effort to realize the experiment is significant, but it’s only a small fraction of what’s already available. Olympus technical review at DESY, F.Brinker