1 / 6

“Intermediate” Filling Patterns for the 2010 Heavy Ion Run

“Intermediate” Filling Patterns for the 2010 Heavy Ion Run. Aim: Devise LHC ion filling patterns with a number of bunches somewhere between 2 bunches/ ring (during first setting up) and the one with >100 bunches for higher luminosity Content:

april-hayden
Download Presentation

“Intermediate” Filling Patterns for the 2010 Heavy Ion Run

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. “Intermediate” Filling Patterns for the 2010 Heavy Ion Run Aim: Devise LHC ion filling patterns with a number of bunches somewhere between 2 bunches/ ring (during first setting up) and the one with >100 bunches for higher luminosity Content: Filling with 20 bunches/ring and regular spacing (apart gaps for abort gap and non- colliding bunches) Few batches from the 140/128/120 bunches/ring scheme Outlook: Two proposals with ~20 bunches/ring … amongst many possible schemes … criterion to choose one No dephasing of the two rings to optimize collisions schedule Adopt (refine, optimize …) one of the schemes and discuss with people concerned (e.g. are two bunches spaced by 3700 ns feasible for SPS …) October 2010 “Intermediate” Filling Patterns for the 2010 Ion Run C.Carli and J.Jowett 1/6

  2. Filling with 20 bunches/ring and regular spacing Batch 3 removed for ring 2 Batch 6 removed for ring 1 Ring 1 filling pattern (ring 2 similar – 3rd batch missing instead of 6th) • Basic building block (corresponds to one SPS batch): two bunches spaced by 3700 ns and “Injection kicker”: 3725 ns • 3 such blocks fill exactly one LHC quarter, leave out last batch for abort gap keeper • To obtain non-colliding bunches for all experiments, if 1st buckets encounter in point 1 • Remove batch 3 of ring 2 (colliding with ring 1 abort gap in ALICE) • Remove batch 6 of ring 1 for non-colliding bunches from both rings in all experiments October 2010 “Intermediate” Filling Patterns for the 2010 Ion Run C.Carli and J.Jowett 2/6

  3. Filling with 20 bunches/ring and regular spacing For completeness: filling sequence as defined via application in CCC Filling sequence for ring 1 Filling sequence for ring 2 October 2010 “Intermediate” Filling Patterns for the 2010 Ion Run C.Carli and J.Jowett 3/6

  4. Filling with 20 bunches/ring and regular spacing Ring 1 filling pattern (ring 2 similar – 3rd batch missing instead of 6th) Collision schedules for ALICE and CMS October 2010 “Intermediate” Filling Patterns for the 2010 Ion Run C.Carli and J.Jowett 4/6

  5. Few batches from the 140/128/120 bunches/ring • Basic building block (corresponds to one SPS batch) from 140/128/120 bunches/ring scheme • One blocks at the beginning of each quarter • To obtain non-colliding bunches for all experiments, add additional batches • Batch 5 for ring 1 • Batch 23 for ring 2 October 2010 “Intermediate” Filling Patterns for the 2010 Ion Run C.Carli and J.Jowett 5/6

  6. Few batches from the 140/128/120 bunches/ring For completeness: filling sequence as defined via application in CCC Filling sequence for ring 1 Filling sequence for ring 2 October 2010 “Intermediate” Filling Patterns for the 2010 Ion Run C.Carli and J.Jowett 6/6

More Related