Sextupolar Magnets in CLIC
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Sextupolar Magnets in CLIC
Rebecca GlaudellCERN REU 2013BE-ABP-CC3
with thanks to:Rogelio Tomas GarciaJavier Barranco Garcia
August 8, 2013
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CLIC is a 3 TeV e+e- compact linear collider.
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http://clic-study.web.cern.ch/CLIC-Study/Layout/OverallCLIC3.html
Lepton colliders allow for more precision in analyzation than hadron colliers.
This will be the highest energy scale reached by a lepton collider.
This can produce higher center of mass energy collisions for elementary particles than the LHC.
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The Final Focus System is part of the Beam Delivery System.
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http://clic-study.web.cern.ch/CLIC-Study/Layout/OverallCLIC3.html
The Final Focus System (FFS) consists of ~90 elements that focus the beam near the interaction point (IP).
Within the FFS, there are nine sextupolar magnets that can focus a beam with energy spread.
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Sextupoles in the FFS can be adjusted to minimize .
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Sextupoles have: 9 adjustable strengths
5 adjustable positions
Measure minimization of beam spread with weighted :
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CLIC uses a rectangular beam.
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The ideal beam is 40 times wider than tall.
𝜎 𝑥0≈40𝑛𝑚
𝜎 𝑦0≈1𝑛𝑚
Image obviously not to scale.
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MAPCLASS2 code aides in the optimization of the CLIC lattice.
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Allows the user to manipulate the beamline or its transfer map.
MAPCLASS2 can use a beamline generated by MAD-X PTC or generate the map directly.
Runs in Python 2.6, but uses some C++ for speed.
https://cds.cern.ch/record/1491228/files/CERN-ATS-Note-2012-087-TECH.pdf?
Methodical Accelerator Design-X Polymorphic Tracking Code
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Nelder-Mead Simplex Method can be used to optimize the beamline.
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1. Choose independent variables:
2. Write MAPCLASS2 function for dependent variable:
3. Choose a starting simplex:
4. Calculate , , or for other orders.
strength position
sextupoles
𝜎 𝑦𝜎 𝑥
[0 ]∗14 [100 ,−100 ,50 ]∗3 [0.1 ,−0.1 ,0.1 ,−0.1 ,0.1]
“Improved” Nelder-Mead Simplex Method gets stuck too easily.
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Optimization depends on order of calculation.
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Optimization depends on order of calculation.
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Results
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Element # Original Strength Improved Strength Position change (m)
24 10.335585192 10.2881885328145 0.07967687682559
30 0.0 133.508521888545 0
31 89.66349022 -109.469292468306 0
32 0.0 68.8207501444652 0
38 -5.033440174 -5.09437310259855 0.049979477525608
43 15.196820336 15.5187207629783 0.052613241375277
49 0.0 -1.27849821750552 0
74 -6.053493698 -6.01584279027468 0.193170454943335
82 21.78589514 21.8375550635217 0.00738902713769
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Results
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Comparable to the difference between fettuccine and linguine
in in
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Future work
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• Confirm improvements for higher orders
• Investigate further improvements to the simplex method
• Apply this method to other accelerators
• Append to official set of MAPCLASS2 codes
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Favorite part?
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and for optimized
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minimized for optimized strengths
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minimized for optimized strengths
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