1. p-bar d-cel: keV antiproton pulses David Lunney CSNSM (IN2P3-CNRS) Université de Paris Sud, Orsay  introduction and concept  p-bar d-cel simulations  ISOLTRAP@ISOLDE  consequences on GBAR layout With crucial help from: V. Manea, S. Cabaret, P. Dupré, S. Dephine (CSNSM) and Robert Wolf (U. Greifswald)

2. From ELENA: 100 keV p pulse 300 ns (1.3 m) 4  mm mrad deceleration and pulsed drift tube: concept - 99 kV 1 keV 0.2 m 40  mm mrad drift tube - 99 kV 1-keV p pulse

3. SIMION simulations by Vladimir Manea deceleration and pulsed drift tube: simulation

4. Transport from decelerator to reaction chamber (GIOS)

5. Full simulations of antiproton deceleration and focusing One single simulation of the 3 m path of the ions from the entrance to the deceleration setup to the injection into the positronium chamber. Optimization of the deceleration and focusing voltages, as well as of the setup geometry, for a maximum transport efficiency through the positronium chamber (preliminary value 15%). Deceleration Focusing SIMION simulations by Vladimir Manea

7. prototype instrument at the CSNSM, Orsay (March 2012)

8. 8 5-10ms 100- 3000ms 100- 3000ms 0.001- 1000ms 0.001- 1000ms 100- 500ms 100- 500ms 1-30ms ISOLTRAP spectrometer at ISOLDE (2 Penning, 1 Paul, 1 MR-tof trap) 60-kV, 1-kHz pulsed drift-tube switch

9. Exotic nuclides and anti-matter major difference: buffer gas!

10. 16/02/2012ISOLTRAP Collaboration meeting 2011 HV-switch circuit 10 200M500nF 5k 75→175 t U τ=1.1us t=11us τ=40ns t=400ns Heinzinger PNChp ±60kV, 10mA dU<10 -5 U nom /8h; dU rf,pp <10 -5 U nom ; dU temp <10 -5 U nom /K communication: GPIB, RS232, analog Heinzinger PNChp ±60kV, 10mA dU<10 -5 U nom /8h; dU rf,pp <10 -5 U nom ; dU temp <10 -5 U nom /K communication: GPIB, RS232, analog 220pF Behlke HTS 651-10-GSM, 65kV, 100Apk dV drop < 30V @ 60kV

11. 16/02/2012ISOLTRAP Collaboration meeting 2011 New HV-switch parts 11 Behlke HTS 651-10-GSM + direct liquid cooling (DLC)* Behlke HTS 651-10-GSM + direct liquid cooling (DLC)* Switch Radiator Pump Buffer capacitor and RF-sealed copper housing Buffer capacitor and RF-sealed copper housing 500nF 60kV 900J 500nF 60kV 900J *GALDEN HT135 Heinzinger PNChp 60kV, 10mA 200MOhm resistor

12. 16/02/2012ISOLTRAP Collaboration meeting 2011 HV-switch present status and performance 12 Power dissipation and load capacitance extrapolated to 60kV @ 200Hz Maximum power dissipation at around 1200Hz switching frequency

13. 16/02/2012ISOLTRAP Collaboration meeting 2011 HV-switch present status and performance 13 peak shape with old setup peak shape with new setup taken from Zn run large tail close to gaussian shape 80 Rb 80 Zn no tail

14. 16/02/2012ISOLTRAP Collaboration meeting 2011 HV-switch present status and performance 14 under-critical damping: increasing resistance necessary 75 Ohm → 175 Ohm

15. 16/02/2012ISOLTRAP Collaboration meeting 2011 HV cage reassembly 15 Alkali ion source HV switch setup RFQ Buncher HVpd 60kV FUG HVcage

16. 16/02/2012ISOLTRAP Collaboration meeting 2011 HV cage reassembly 16 Alkali ion source HV switch setup RFQ Buncher 60kV FUG HVcage 60kV Heinzinger HVpd dU via CS class* * by Christopher

17. HV-switch Safety Dividing the HV cages demands a separate safety installation for the HV-switch cage: If VETO is set, LOW status is active -> HVpd=0V switch and cooling controller Trigger & Veto terminal Control SystemTPG 300 pressure Center 3 pressure p Buncherp drift tubetrigger Behlke switch Cooling system Tacho Pump and Fan speeds Temp.: Fore, Back, Pump Pump and Fan statustrigger IN VETO 1-4 optional: trigger optical OUT and trigger TTL OUT (manual reset button) trigger optical IN trigger TTL IN direct trigger trigger IN status OUT: Temp, Freq., DC switch status optical 5V DC power supply 5V DC IN 9V DC power supply switch status monitor 24V DC power supply Line voltage attached to cooper box grounding 16/02/201217

18. GBAR layout issues

20. Extraction from ELENA in a short straight section 25 January 2012 CERNTransfer line WS / Pavel Belochitskii 20

22. beam transport energy: 60 keV

26. H + Production SiO 2 coatin g fast extraction from trap Ortho-positronium

27.  GBAR – reaction chamber trajectories p p H H+H+ e e ? ? ?

29. AD1-5?

32. 16/02/2012ISOLTRAP Collaboration meeting 2011 Summary 32 Decelerator Pulsed drift scheme: start from working instrument (60 kV) First simulations show phase space conserved transmission not disastrous (35%) Layout issues Question: are H+, p-, e+ beams interesting for others? Extraction and transport part of ELENA (i.e. resp. CERN)? Positioning of equipment… different extraction segment? rotating ELENA? increasing ELENA kicker-bender angle? adding multipoles?

35. AD1-5?

37. ELENA layout in AD Hall 25 January 2012 CERNTransfer line WS / Pavel Belochitskii

40. 16/02/2012ISOLTRAP Collaboration meeting 2011 HV-switch modification 40 old circuit:new circuit: Design objectives:  Repetition rate up to 1kHz @ 60kV  Stable high-voltage potential  Safety, Reliability Challenges:  Power dissipation: up to 600W  RF-noise Drawbacks:  Repetition rate max. 3Hz  dropping HVcage potential  (Leakage current issue)