vyacheslav klyukhin, sinp msu simulation of magnetic toroids for cms forward muon detection april...

Vyacheslav Klyukhin, SINP MSU

Simulation of magnetic toroids for CMS forward muon detection

April 22, 2013V. Klyukhin, General Muon mtg,

CERN1

V. Klyukhin, General Muon mtg, CERN

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Motivation of the Proposals

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Initial Data

April 22, 2013

Parameters of the 13 toroids used in the IHEP-JINR Neutrino Detector (IHEP, Protvino):• Outer diameter: 4 m;• Inner square hole: 0.36 × 0.36 m²;• Thickness: 0.22 m (two disks of 0.11 m welded

together);• Weight: 25 t;• Material: Russian steel St08;• Number of turns in one coil: 34 of copper with cross-

section of 18.5 × 18.5 mm² and an inner hole of 10 mm diameter;

• Demineralized water consumption: 14.4 l/min;• Magnetic flux density at the inner radius: 1.9 T;• Magnetic flux density at the outer radius: 1.45 T;• Operational current: 907.6 A at 10.4 V;

V. Klyukhin, General Muon mtg, CERN

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Data Used for Simulation

April 22, 2013

• Outer diameter: 5.2 m;• Inner diameter: 0.4 m;• Thickness: 0.34 or 0.78 m;• Weight: 55.5 or 127.3 t;• Material: vf steel;• Number of turns in one coil: 34 of copper with cross-

section of 18.5 × 18.5 mm²;• Coil cross section: 0.038 × 0.330 m²;• Current: 907.6 A at 10.4 V;

V. Klyukhin, General Muon mtg, CERN

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Azimuthal magnetic flux density at Z=0 m (0.34 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Azimuthal magnetic flux density at φ=0º (0.34 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Azimuthal magnetic flux density at φ=45º (0.34 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Azimuthal magnetic flux density at Z=0 m (0.34 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Radial magnetic flux density at Z=0 m (0.34 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Radial magnetic flux density at φ=0º (0.34 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Radial magnetic flux density at φ=45º (0.34 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Radial magnetic flux density at Z=0 m (0.34 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Azimuthal magnetic flux density at Z=0 m (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Azimuthal magnetic flux density at φ=0º (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Azimuthal magnetic flux density at φ=45º (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Azimuthal magnetic flux density at Z=0 m (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Radial magnetic flux density at Z=0 m (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Radial magnetic flux density at φ=0º (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Radial magnetic flux density at φ=45º m (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Radial magnetic flux density at Z=0 m (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Layout of 6 Toroids from the Top (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Azimuthal magnetic flux density at Z>0 m (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Azimuthal magnetic flux density at Z<0 m (0.78 m)

April 22, 2013

V. Klyukhin, General Muon mtg, CERN

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Conclusions

April 22, 2013

• The toroids could be located at Z-coordinates of ±11.5, ±12.58, and ±13.66 m (from 11.11 to 14.05 m) in place of the present HF, if it will be moved into the end-cap disks bore;

• The pseudorapidity coverage is from 2.39 to 4.02;• The space between the coil of two adjacent toroids is 0.2

m;• The azimuthal magnetic flux density is rather uniform

along the beam axis;• The radial magnetic flux density is negligible;• The azimuthal magnetic flux density varies from 1.73 to

2.18 T vs. radius for 0.78 m thick toroids;• The integrals of the azimuthal magnetic flux density vary

from 4.17 (η=2.4) to 4.96 (η=4) T·m for 0.78 m thick toroids.