Status of LHC Operations

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Presentation transcript:

Status of LHC Operations R. Assmann for the LHC commissioning team and LHC teams & groups LPCC 23.4.2010

Commissioning Strategy Last Weeks Mike Lamont et al 23.4.2010 LPCC, R. Assmann

Outline The squeeze story: Getting all 4 IR’s squeezed to 2m IR1 and IR5 IR8 IR2 All 4 IR’s at once Qualification tests for machine protection Higher intensity Storing 10 bunches at injection Storing nominal bunch charge Feedbacks, emittance and operational issues Feedbacks “Hunt the Hump” Multiple beam-induced quench Conclusion 23.4.2010 LPCC, R. Assmann

PART I – Squeeze IP Beam Size @3.5 TeV … a long story but with a happy ending… This is one of the most complex stages of operation! Change of beam optics to reduce beam size at the interaction points. Goal for 2010 beam size reduction: factor ~2.2 for each plane (factor 5 in IP beta):  factor 5 higher luminosity This is a change in b* by a factor ~5! Complex control of all IR power converters plus precision corrections. At the same time the beam size at the triplets around the experiments increases significantly:  triplets become aperture bottlenecks Protection of triplets and experiments against beam loss must be carefully verified before stable beams. 23.4.2010 LPCC, R. Assmann

Step 1: Squeezing and correcting IR1 & IR5 b-beat for Beam1 @ b* = 2m after correction using IR5 Q2: Rogelio Tomas et al 23.4.2010 LPCC, R. Assmann

Example: CMS Luminosity Optimization S. White 23.4.2010 LPCC, R. Assmann

ATLAS and CMS Improvement M. Ferro-Luzzi Increase after squeeze: Factor 4-4.5 (to be compared with expected factor 5) Luminosity up to 5×1027 cm-2 s-1. 23.4.2010 LPCC, R. Assmann

Step 2: Squeezing and correcting IR8 b-beat for Beam1 after squeeze and @ b* = 2m in IR8 after correction of Q5: Rogelio Tomas et al 23.4.2010 LPCC, R. Assmann

Step 3: Squeezing and correcting IR2 b-beat for Beam1 at b* = 2m in IR2 (all other IPS at b* = 2m): Rogelio Tomas et al 23.4.2010 LPCC, R. Assmann

Problem Example I: Too steep current requests RQS.A78B2 (17/04) tripped 3 times due to steep current-ramp requests. RQS.A56B2 (16/04) tripped once for the same reason QPS inductive compensation does not have time to react. V_REF translates directly into U_RES which goes above threshold. Functions need to be adjusted / smoothened. Fixed as found… Thanks to crucial help from MP3 team on shift! 23.4.2010 LPCC, R. Assmann

Problem Example II: Discontinuities after incorporation  Fixed by new software

Problem Example III: Leftover trims incorporated  Fixed by procedure… Many small issues that require to be found and fixed. Each little issue costs 5-6 hours! 23.4.2010 LPCC, R. Assmann

Step 4: Squeezing and correcting all 4 IR’s Rogelio Tomas et al 21 optics steps! Mike Lamont Gabriel Muller Marek Strzelczyk Stefano Redaelli Xavier 23.4.2010 LPCC, R. Assmann

Squeeze now starts working smoothly! Look at 4 most recent fills in last 48 hours! All these fills made it to 3.5 TeV and 2m b*! First two still affected by bugs (intensity loss) but used for qualification study! Last two fills without any problem, very smooth! Used for provoked loss tests in preparation for stable beams! 23.4.2010 LPCC, R. Assmann

Provoked vertical beam loss on beam 1 Momentum Cleaning Dump Protection Col. IR2 IR5 IR8 IR1 Collimation Team 2m optics exposes IR’s as expected! Protected by tertiary collimators. 23.4.2010 LPCC, R. Assmann

Zoom (vertical loss beam 1) Betatron Cleaning factor 4,000 factor 1,000 factor 600,000 IR8 Collimation Team  OK for stable beams from collimation! 23.4.2010 LPCC, R. Assmann

Provoked asynchronous beam dump 1e-3 leakage to tertiary collimators in IR’s  OK for stable beams from beam dump! Brennan Goddard et al 23.4.2010 LPCC, R. Assmann

Status and Outlook Squeeze Squeeze to 2m for all 4 IR’s established. All IR’s steered into collision. Golden orbit established. All 16 tertiary collimators adjusted. Squeezed optics fully qualified for protection. Next: intensity from 2e10/beam to 3.5e10/beam Next: Stable beams with 10 times luminosity: 1028 cm-2 s-1 in reach Still a lot to go but first steps are most difficult! 23.4.2010 LPCC, R. Assmann

PART II – Increasing Intensity at 450 GeV … will be a long story but so far very happy… This will be the challenge of LHC! Goal: Factor 10 at injection. 23.4.2010 LPCC, R. Assmann

Increase Intensity: Number of Bunches Dump of the 10 bunches factor 10 T Brennan Goddard et al 23.4.2010 LPCC, R. Assmann

Increasing bunch intensity factor 10 Major success for LHC: Nominal bunch charge at 450 GeV! 25 hours beam lifetime! Means: No single bunch show stoppers from dynamic aperture, instabilities, … 23.4.2010 LPCC, R. Assmann

Increase Intensity: Over-Injection Example of over-injection of 1E11 – 40 us integration Losses from over-injection Losses from TL collimators (X-talk) Brennan Goddard et al TDI 23.4.2010 LPCC, R. Assmann

Transfer line collimator Ring magnets with beam loss monitors Tunnel View Transfer line collimator Ring magnets with beam loss monitors Collimation Team 23.4.2010 LPCC, R. Assmann

Increase Intensity: Emittance Emittances versus bunch intensity: Injection team factor 10 beyond 1e10 pilot 23.4.2010 LPCC, R. Assmann

Increase Intensity: Tune Shift Beam 1 Injection team DQh = 0.0005 DQv = 0.0015 23.4.2010 LPCC, R. Assmann

Tune shift: Measured versus Expected B1 meas B2 meas Expected Qh tune shift 5e-4 1.5e-3 Qv tune shift 2.0e-3 4.5e-4 for 1e10 to 1e11 p to be studied systematically: impedance vs. collimator settings other source? Elias Metral et al 23.4.2010 LPCC, R. Assmann

PART III – Feedbacks, Emittance & OP Issues …the cure, some issues… 23.4.2010 LPCC, R. Assmann

Tune Feedback in Operation Tune feedback during ramp: Ralph Steinhagen et al 23.4.2010 LPCC, R. Assmann

Orbit Feedback in Operation Maximum orbit change during energy ramp: 0.08 mm Ralph Steinhagen et al 23.4.2010 LPCC, R. Assmann

Transv. Damper: Damping Beam Excitations Wolfgang Hoefle et al OFF ON Crucial device to keep emittance growth under control! 23.4.2010 LPCC, R. Assmann

Emittance Growth: Still a Problem factor 3 LHCb 2nd lumi-scan Bumps collapsed LHCb lumi-scan ATLAS lumi-scan CMS lumi-scan Ramp start Ramp finish VELO in Time Mirko Pojer 23.4.2010 LPCC, R. Assmann

Lifetime Drops with “Quiet” Beam Our friend the hump on the lifetime - ~ 7 minute period Hunt the Hump! The hump is a vertical excitation on the beam that has a fast frequency component (therefore visible as “hump” in the tune spectrum and a slow moving frequency component (7 min). 23.4.2010 LPCC, R. Assmann

4 Magnet Quench from Injected Pulse Losses in Sector12 at 450 GeV injection (1e10 p): Debugging of operational procedures… First injection into machine with some magnets mis-powered. First injection always with pilot beam to exclude damage. Collimation cannot protect for strong local kicks! 23.4.2010 LPCC, R. Assmann

Conclusion Our “baby” (the LHC) learns walking surprisingly fast: Routine ramps with 2e10 p to 3.5 TeV (just below safe beam limit). Squeeze in all 4 IR’s to 2m b* starts to run smoothly (smallest 2010). Squeezed optics fully qualified for protection  IR’s protected by collimation as foreseen. Tonight/tomorrow: Stable beams: unsafe 3.5 TeV beam, all IR’s squeezed to 2m b*. Luminosity at 1028 cm-2 s-1. In parallel important progress towards higher intensities: Stored nominal bunch intensity at 450 GeV with excellent lifetimes. Multiple bunches stored. Various feedbacks running. Instrumentation, RF, cryo, … very good! Seeing and addressing issues: emittance growth, hump, thresholds, impedance, operational issues, … Remember, LHC is still a baby (for beam). So we try to guide it carefully the first steps… (we do not want to fall) 23.4.2010 LPCC, R. Assmann

Thank you for your attention! 23.4.2010 LPCC, R. Assmann