Booster Beam Notching PMG Meeting

Salah ChaurizeAugust 21, 2013

Notching History• Notching is controlled removal of selected proton bunches

to facilitate a gap in the beam.• This gap allows the Booster extraction kickers magnetic

fields to reach full value to allow extraction of the remaining bunches.

• Without the gap or “notch” in the beam, the extraction kickers would displace these bunches in a non-controlled fashion causing losses in the extraction region

• In the past “notching” was less critical due to lower beam intensities and lower beam duty cycles. Losses were tolerable.

Longitudinal distribution of 3 removing (red), circulating (green) and survival at notching (blue) bunches, and long (1.08m) and short (0.54m) notchers waveform at Long-13, and 1.08-m notcher waveform for Long-05 straight section.

December, 2011 A.Drozhdin

The Notch/Gap3 Bucket Notch Width

non-cogged Cycle Notch @ 400MeV Cogged Cycle

Notch @ ~700MeV

Extraction Loss

Gap

Booster Kicker Notching Plans

• Phase I– Create a Horizontal Notch scheme to deposit beam at L13 using existing

Notching magnet systems.– Reduce losses to sensitive locations such as gradient magnets and RF

cavities.– Phase I is complete.

• Phase II– Improve notch kicker rise time to allow cleaner gap clearing and emmittance

growth of bunches adjacent to the cleared bunches.– Build new short kickers and fast pulser to drive faster notch producing

system.– Magnets building in progress. Kicker power system building underway. – Phase II is in progress.

Notching Pre-Shutdown 2012– A 3 bucket gap is created using two kickers located at Long 5

and Long 12• Notcher – A High Voltage(55kV) Kicker at Long 5• Noker - Lower Voltage Kicker (20-40 kV) at Long 12

– Used to clean out remnant notched beam in bucketsAt ~700 MeV due to Cogging operations.

– Beam is kicked vertically into Gradient Magnet dipoles at L5 and L12. Some notched beam reaches the collimator region at Long 6 and beam pipe mask at Long 13. This is not optimal

– Non-cogged notched cycles occurs at ~400 MeV.– Cogged notch cycles occurs at ~700 MeV.

Notching Magnets at Long 5 and Long 12 Pre-Shutdown 2012

Notcher

Hor. Pinger

De-commissioned Horz. Pinger

Ver. PingerNoker

MKS04

Beam direction

L12 Pre-2012 Shutdown L5 Pre-2012 Shutdown

Beam direction

December, 2011 I.Tropin

Residual dose profiles, vertical cross section (30 days irradiation/1day cooling, mSv/hr).

Vertical notcher

Notching at Long 5 Pre-shutdown

Booster Kicker Notching Plans

• Phase I– Create a dedicated region to deposited 3 bunches of beam to produce

a extraction kicker rise time gap.– Use current CX1168 thyratrons and PS systems to drive 3 kickers that

kick Horizontally rather than vertically. – We implemented a three kicker system to go into Long 12 and Long 13

as the absorber regions.– This first phase is completed. Notched beam has been achieved with

this new horizontal configuration. – Further orbit tuning and timing adjustments will continue as we

commission MI beam.

Horizontal position of 3-σ circulating beam and removed beam at notching for magnetic field of two horizontal notchers of B=67Gauss at 400 MeV (top) and

two notchers of B=72.5Gauss plus one notcher of B=35.2Gauss at 700 MeV (bottom).

Three horizontal notchers at Booster Long-12 with beam dump at Long-13 straight section.

August, 2011 A.Drozhdin

Three notchers with field of B=62 Gauss. The aperture of Short-12 straight section should be increased to R>86mm to eliminate losses. This can be done by displacement of R66.5mm aperture (without BPM) by dX=20 mm. [46.5-86.5]mm

Y

Short-12

dX=70mm

400MeVCirculating beam

3σ (ε=18π)

Dump-13

X Red – 30π, green - 18 π

August, 2011 A.Drozhdin

Long-13: Loss SimulationsDecember, 2011 I.Tropin

Side view

Top view

Reason to redesign S12 Spool piece

• Need to kick beam horizontally at L12 to create a notch in the beam.

• Horizontal aperture is current 4.5 in at S12• Maximum aperture through Booster Short

Corrector is about 5 in. • Current aperture restriction at S12 is BPM plates

and upstream and down stream bellows which are all 4.5in.

Reason to redesign S12 Spool piece

• New Extra Wide aperture BPM will give us 5 in aperture with new spool.

• New spool would use original spool design without the standard BPM components inside and larger aperture spool bellows

Extra Wide Aperture BPM

Short 12 Corrector Spool Upgrade

New 5” Aperture Spool Standard aperture 4.5 Inch

New Extra wide BPM Standard BPM inside

Notching Post ShutdownPhase I

– A 3 bucket gap is created using three Long kickers located at Long 12

• 3 Notcher – High Voltage(46-54kV) Kickers at Long 12• Notcher PS converted to NOKA PS• Noker PS converted to NOKB PS• Built/Commissioned new NOKC PS mostly with parts on

hand.– Beam is kicked Horizontally into new absorber at Long 13 – Extra Wide Aperture BPM and Short Corrector Spool needed

to allow kicked beam horizontal displacement before reaching absorber.

– Non-cogged notched cycles occurs at ~400 MeV.(unchanged)– Cogged notch cycles occurs at ~700 MeV.(Unchanged)

L12 Post Shutdown

NOKCMKS04

NOKBNOKA

12-13 sections of Booster tunnel.

Long-13

Long-12

Kick at L12 to Aisle.

Long 13 Notched beam absorber

Beam direction

Before

After

Long 13

Beam direction

Long 13 Actual new absorber

Current ConfigurationIn East Gallery

NOKA

NOKB

NOKC

Current Configuration In East Gallery

NIM Gate Modules Altera Based

CAMAC Controls and Ramp Cards

LeCroy Delay modules & CAMAC Trigger

Notching turned On and OffExtraction loss monitor

Notching off

Notching on

Beam Charge

400 MeV Notched beamAbsorber in operational position

400 MeV Notched beamAbsorber Retracted

700 MeV Notched beamCurrently

Preliminary Results and Commissioning

Phase II• Current BKED (Long) design kicker have a rise time of about 35ns • Short BKEF kicker modules are about half as long. They will

produce a rise time of about 25ns.• The voltage propagation time through the short kicker is cut from

20ns to 10ns due to half length.• Two short kickers will rise faster with appropriate pulser to reach

a desired flatop value.• We will use a ANU style pulser using a CX2610 hydrogen thyratron

rather than the existing CX1168 tube. This new pulser we gain us about 8-15ns of rise time.

• One Pulser can drive 4 magnets, possibly 6.

Phase II

• C. Jensen and J. Biggs along with EE support group is currently working on acquiring and building an ANU style pulser.

• Pulser components will be built through out 2013.

• We hope to have one pulser operating in a test configuration by the end of 2013.

• We will try to convert one long kicker to a pair of 2 short kickers as soon as feasible(2013/14)

C. Jensen

New Short kicker PS RackFront/Back view

EE Support currently building System

New Pulser for Short BKEE/BKEF Kicker Example(ANU Pulser Test Unit)

1Long Kicker BKED Series

2 Short Kicker BKEE Series

Conclusion

• Horizontal Beam notching is working.• Estimated notched beam power max is about

250watts which is half the budgeted power loss for Booster. The New L13 notched beam Absorber gives us 50% more head room on lost beam power. This helps towards future 15Hz. Operations

• Phase II should give us further improvements towards 15Hz. Operations.

Thanks to:-L13 Notched Beam Absorber Assembly-

PPD Experiment Fabrication- L13 Absorber Build and AssemblyD.Erickson, J. Judd, W. Blaszynski, W. GatfieldV. Sidorov - L13 Absorber Mechanical Design

APC Energy Deposition Simulations by- N.Mokhov, I. Tropin, S.Drozhdin M. Coburn L13 Absorber Motion Controls

-L12, S12, L13 Upgrade Support-Mechanical Support/ Instrumentation Groups – L13/S12 BPM and Corrector

R. Reily, B. Ogert, J. Kubinski, J. Briney ,D. Wallace, J. FitzgeraldControls Group CAMAC modules

Booster Techs - Power supply and load reconfiguration New timing module build and support electronics R. Mraz, T. Boes, D. Dick

Operations - Database work , O. Marshall, R. JonesAMG-L12, S12,L13 alignment

Radiation Safety – Joel FulghamConsultation – J. Lackey, B. Pellico

Machine Shop, Welding ShopMany More I missed

END

Reserve Slides

Looking upstream towards L13

Before After

Short Kicker/ Power Supply Effort

• Purpose of short kicker is to reduce kicker magnet rise/fill time.

• We can improve rise time of magnet field from current ~32nsec to about 25nsec.

• This will improve beam bunch removal with reduced disturbance of bunches intended for extraction.

New Short Kicker Pulser Control and PS racks location. East Booster Gallery

BKEE02(Short Module)Voltage ~40kV

BKED012(Long Module)Voltage ~40kV

BKEE001Short42KV Noker

BKED012Long42KVNoker

Channel 1 V inChannel 2 VoutChannel 3 Load I

Preliminary finding is a 8-15 ns difference between ANU pulser and Operational Booster pulser(Slower)

Testing by Jensen, Chaurize