1. Summary: Working Group on Instrumentation Wim Blokland ORNL / SNS Manfred Wendt Fermilab 11/22/2008Summary: Project X Instrumentation WG 1

2. Charge Discuss and propose any potential modification on the ICD Identify issues that need to be addressed within the RD&D program Propose timeline (RD&D plan components and sequencing) Propose a provisional distribution of responsibilities through CD-1 Identify any issues related to the above that need resolution 11/22/2008Summary: Project X Instrumentation WG2

3. Overview Rather small working group, ~15 participants Used only 2 (of 3) WG sessions 4 presentations and lots of discussion –Wim Blokland: Overview of SNS Beam Instrumentation –Vic Scarpine: HINS Beam Instrumentation R&D –Manfred Wendt: Beam Instrumentation Collaborations –Manfred Wendt: Project X Beam Instrumentation R&D Projects Focus on beam parameter characterization –Beam instruments and technical challenges But also overlap with: –Controls, software, data acquisition, timing, etc. –Machine and system protection interlocks 11/22/2008Summary: Project X Instrumentation WG3

4. 4Managed by UT-Battelle for the Department of Energy ProjectX 11/21-22 2008 SNS Collaboration: Instrumentation SNS Beam Instrumentation Collaboration Setup Partner labs design and built instrumentation Reviews (video-conferences/meetings) Local experts (to receive and help with final systems) Visits Issues Integration Priorities Budgets Delays Result Main accelerator diagnostics are operational

5. 5Managed by UT-Battelle for the Department of Energy ProjectX 11/21-22 2008 SNS Instrumentation Ion Source 2.5 MeV 1000 MeV 87 MeV CCL SRF,  = 0.61 SRF,  =0.81 186 MeV387 MeV DTL RFQ RTBT HEBT Injection Extraction RF Short Pulse Harp (RTBT) #1 Wire Scanners (Linac/RTBT/HEBT) #42 Video Screens (Injection/RTBT) # 5 Energy Degrader Faraday Cups (DTL/CCL) #6 Aperture (MEBT) #1 Beamstop (MEBT/CCL) #2 Bunch Shape Monitors (CCL/HEBT) #6 Allison & Harp Emittance Scanner (FE/MEBT) #3 Harp (RTBT) #1 Wire Scanners (Linac/RTBT/HEBT) #42 Video Screens (Injection/RTBT) # 5 Energy Degrader Faraday Cups (DTL/CCL) #6 Aperture (MEBT) #1 Beamstop (MEBT/CCL) #2 Bunch Shape Monitors (CCL/HEBT) #6 Allison & Harp Emittance Scanner (FE/MEBT) #3 Accumulation Target Pulse Train BPM #160 BLM #370 (30 IOCs) BCM (Diff BCM) #26 ChuMPS (MEBT) #1 Laserwire (SCL) #10 Electron Scanner (Ring) #2 Spark Detector (LEBT) #2 Residual Gas Analyzer (FE)#2 Laser Emittance (HEBT) Ion Profile Monitor (Ring) Ridicules (Idmp) Electron Cloud Detector BPM #160 BLM #370 (30 IOCs) BCM (Diff BCM) #26 ChuMPS (MEBT) #1 Laserwire (SCL) #10 Electron Scanner (Ring) #2 Spark Detector (LEBT) #2 Residual Gas Analyzer (FE)#2 Laser Emittance (HEBT) Ion Profile Monitor (Ring) Ridicules (Idmp) Electron Cloud Detector

6. 6Managed by UT-Battelle for the Department of Energy ProjectX 11/21-22 2008 Instrumentation in progress New instruments Unexpected issues - RGA Monitors, Spark Detectors Physics Requests (Non-interceptive/high intensity) - Electron Scanner - Ion Profile Monitor - Laser Emittance - Damper for e/p Operations (Safety) - Loss decay - Differential Current Monitor - 60 Hz Beam Accounting Existing instruments Reliability ­ became critical for ops User friendliness ­ non-experts to operate Additional capabilities - filtering - beam accounting Obsolescence - parts no longer available

7. 7Managed by UT-Battelle for the Department of Energy ProjectX 11/21-22 2008 Laser Striping Experiment SCL Laser Profile Monitors, 9-stations MEBT 3-D Laser Profile Monitor 1)MEBT Mode-lock laser initially in 1-D – 9/2004 2)SCL Nd:YAG 1064 nm Laser, 9-station – 9/2005 3)Laser Stripping test Nd:YAG, 3ed harmonic -- 8/2005 4)Working on making SCL Laser system turn-key -- to present 4M4H 1D Laser Emittance Laser-based Instrumentation S. Assadi HIB2008

8. 8Managed by UT-Battelle for the Department of Energy ProjectX 11/21-22 2008 Markers Electron Scanner Hardware Electron Scanner made by Budker Institute of Nuclear Physics: Dmitriy Malyutin, Sasha Starostenko, Sasha Tsyganov Vacuum vessel by SNS. 1)Build an electron gun (75kV) 2)Shoot a tilted line of electrons through the proton beam 3)Use a fluorescent screen and video camera to get the projected curve

9. 9Managed by UT-Battelle for the Department of Energy ProjectX 11/21-22 2008 Electron Scanner Data 3D plot of Turn 343 Ring BCM around Turn 343

10. 11/22/2008Summary: Project X Instrumentation WG 10 Temporary Diagnostics The temporary diagnostics station is to use at the end of the following linac sections as HINS evolves RFQ+MEBT, RT section, SSR1, SSR2 Minimum instrumentation includes: 2 BPMs, includes phase pick-up – time-of-flight 3 profile monitors 1 current transformers Beam dump –water cooled Faraday cup Maximum set –Emittance station – slit-collector –Bunch length – wire and/or laserwire –Bunch profile – laserwire

11. 11/22/2008Summary: Project X Instrumentation WG 11 2.5 MeV Temporary Diagnostics

12. 11/22/2008Summary: Project X Instrumentation WG 12 Diagnostic Beamline Space in MEBT? Diagnostic Section? Space for diagnostics very tight What minimal permanent diagnostics are required?

13. 11/22/2008Summary: Project X Instrumentation WG 13

14. 11/22/2008Summary: Project X Instrumentation WG 14

15. Collaborations Collaboration R&D –Gives a view outside the usual lab life. –Notice of experience, skills, expertise and knowledge at other laboratories, institutes and universities. –Broadens the spectrum, shows other perspectives and solutions on same and similar problems. –Initiates new ideas and solutions! –Give opportunities of beam studies at other facilities, meet colleagues under “real-world” (not workshop) conditions. –Social and cultural aspects, e.g. meet new people, travel, have some fun (at and after work!), etc. –Make comparisons (at many levels). 11/22/2008Summary: Project X Instrumentation WG15

16. Instrumentation Collaborations Beam instrumentation is quite ideal for collaboration projects: –Small and mid-size projects, ideal for smaller lab teams, university groups, etc. –Challenging, practical projects in beam physics and engineering, apply various state-of-the-art technologies, e.g. RF & microwave electronics Lasers and femto-sec timing precision mechanics, UHV, clean-room technologies digital signal processing, real-time software, etc. –Does not need a very large budget (unlike magnets, SCRF cavities, high power RF and modulators, etc.) –But: May require test accelerator facilities with beam time for beam studies. 11/22/2008Summary: Project X Instrumentation WG16

17. Definition of Collaborations Needs a very clear plan: –Exact definition of the R&D project Detailed instrumentation specs Scope and deliverables (can be anything between consulting and a complete turn-key system) Schedule and milestones Hard- and software integration Realistic cost estimation (M&S, SWF) –Identify individuals of both partners to be responsible to carry the project. Requires transparency and trust! –Needs oversight, control and reviews with expertise. A personal remark… Examples of Fermilab collaborations on beam instrumentation 11/22/2008Summary: Project X Instrumentation WG17

18. BNL Laser Wire for HINS BNL test: –750 keV H - beam –Faraday-cup e - detector 11/22/2008Summary: Project X Instrumentation WG18

19. Fermilab LPM Test Setup Laser Profile Monitor details –Q-switch laser –Laser energy: 50 mJoule –Wavelength: 1064 nm –Pulse length: 9 nsec –Fast rotating mirrors (±4 0 / 100 µsec) –e - detector: scintillator & PMT Installation: –1 st Test with 400 MeV H - –HINS: 2.5 & 60 MeV Upgrades & issues –CW laser for single macro pulse sweep –Detector system for 8 GeV setup 11/22/2008Summary: Project X Instrumentation WG19 optical box laser beam H - beam double dipole BPM detector port

20. Beam Instrumentation Projects Beam ParameterBeam Instrument(s) beam / bunch intensitytoroids, WCM beam orbit / positionbutton-, Stripline BPM, cold BPM (cavity?) beam energy / phase / TOFBPM, HOM coupler(?) transv. beam profile / emittance laser wire, wire scanner, OTR, Allison scanner, slit / multi-wire (harp), pepper pot, IPM, e-beam transv. beam halolaser wire, vibrating wire long. bunch profile / bunch length wire-based bunch shape monitor, microwave Faraday-cup long. bunch tailsmode-locked (fiber) laser beam losses / machine protection Ion chamber, scintillator/PMT, neutron detectors, coaxial-line detectors electron cloud investigationTE waveguide mode, Faraday-cup beam-based feedback systems (e.g. slow-spill extraction) ? 11/22/2008Summary: Project X Instrumentation WG20

21. Expressions of Interest LBNL (John Byrd): –Electron cloud investigation and beam studies at the Main Injector. Utilizing time resolved measurements, based on TE waveguide mode phase modulation principle. Help on the CDR. –Mode-locked fiber laser for long. bunch profile and tail characterization in the HINS MEBT ORNL / SNS (Wim Blokland): –Various Project X mission critical beam instruments match SNS instruments: Allison scanner, e-beam scanner, slit/harp emittance scanner, microwave Faraday cup, (laser wire). SLAC (Ray Larsen): –Standardization towards an universal, state-of-the-art data acquisition hardware platform (instrumentation, controls, LLRF). [Yerevan Physics Institute: Vibration wire?] 11/22/2008Summary: Project X Instrumentation WG21