Preliminary Design of a Block-Coil Magnet for the Muon Collider Ring

Luca Alfonso; Andrea Bersani; Luca Bottura; Barbara Caiffi; Stefania Farinon; Andrea Gagno; Filippo Levi; Francesco Mariani; Samuele Mariotto; Riccardo Musenich; Daniel Novelli; Alessandra Pampaloni; Tiina Salmi

doi:10.1109/TASC.2024.3510234

Preliminary Design of a Block-Coil Magnet for the Muon Collider Ring

Luca Alfonso, Andrea Bersani, Luca Bottura, Barbara Caiffi, Stefania Farinon, Andrea Gagno, Filippo Levi, Francesco Mariani, Samuele Mariotto, Riccardo Musenich, Daniel Novelli, Alessandra Pampaloni, Tiina Salmi

Electrical Engineering

Research output: Contribution to journal › Article › Scientific › peer-review

2 Citations (Scopus)

Abstract

In the framework of the IMCC (International Muon Collider Collaboration), a feasibility study for a collider ring 10km long with muons having a center of mass energy of 10 TeV is currently being carried out. The superconducting magnets represent one of the most challenging components of the collider stage of such a facility: indeed, the need for high fields, large apertures and dipole + quadrupole combined function require technological choices at the edge of the status of the art. These requirements arise from the short lifetime at rest of the muons, 2.2 μs, which brings the need for a compact collider to maximize the luminosity and large bore magnets to accommodate adequate shielding for the decay products. Furthermore, long straight sections must be avoided to mitigate the dose hazard induced by the collimated neutrino beams produced by the muon decay, hence dipoles and quadrupoles must be combined in the same magnets. In this contribution we will present the preliminary 2D design of a superconducting magnet based on the block-coil concept that meets the requirements needed for the muon collider ring, focusing both on the electromagnetic and mechanical aspects.

Original language	English
Article number	4000405
Journal	IEEE Transactions on Applied Superconductivity
Volume	35
Issue number	5
Early online date	2 Dec 2024
DOIs	https://doi.org/10.1109/TASC.2024.3510234
Publication status	Published - 2025
Publication type	A1 Journal article-refereed

Keywords

Accelerator magnets
block coil magnets
muon collider
superconducting magnets

Publication forum classification

Publication forum level 1

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Electrical and Electronic Engineering

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Cite this

@article{a9eae04156ef490f846bee4a2012b023,

title = "Preliminary Design of a Block-Coil Magnet for the Muon Collider Ring",

abstract = "In the framework of the IMCC (International Muon Collider Collaboration), a feasibility study for a collider ring 10km long with muons having a center of mass energy of 10 TeV is currently being carried out. The superconducting magnets represent one of the most challenging components of the collider stage of such a facility: indeed, the need for high fields, large apertures and dipole + quadrupole combined function require technological choices at the edge of the status of the art. These requirements arise from the short lifetime at rest of the muons, 2.2 μs, which brings the need for a compact collider to maximize the luminosity and large bore magnets to accommodate adequate shielding for the decay products. Furthermore, long straight sections must be avoided to mitigate the dose hazard induced by the collimated neutrino beams produced by the muon decay, hence dipoles and quadrupoles must be combined in the same magnets. In this contribution we will present the preliminary 2D design of a superconducting magnet based on the block-coil concept that meets the requirements needed for the muon collider ring, focusing both on the electromagnetic and mechanical aspects.",

keywords = "Accelerator magnets, block coil magnets, muon collider, superconducting magnets",

author = "Luca Alfonso and Andrea Bersani and Luca Bottura and Barbara Caiffi and Stefania Farinon and Andrea Gagno and Filippo Levi and Francesco Mariani and Samuele Mariotto and Riccardo Musenich and Daniel Novelli and Alessandra Pampaloni and Tiina Salmi",

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language = "English",

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journal = "IEEE Transactions on Applied Superconductivity",

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T1 - Preliminary Design of a Block-Coil Magnet for the Muon Collider Ring

AU - Alfonso, Luca

AU - Bersani, Andrea

AU - Bottura, Luca

AU - Caiffi, Barbara

AU - Farinon, Stefania

AU - Gagno, Andrea

AU - Levi, Filippo

AU - Mariani, Francesco

AU - Mariotto, Samuele

AU - Musenich, Riccardo

AU - Novelli, Daniel

AU - Pampaloni, Alessandra

AU - Salmi, Tiina

PY - 2025

Y1 - 2025

N2 - In the framework of the IMCC (International Muon Collider Collaboration), a feasibility study for a collider ring 10km long with muons having a center of mass energy of 10 TeV is currently being carried out. The superconducting magnets represent one of the most challenging components of the collider stage of such a facility: indeed, the need for high fields, large apertures and dipole + quadrupole combined function require technological choices at the edge of the status of the art. These requirements arise from the short lifetime at rest of the muons, 2.2 μs, which brings the need for a compact collider to maximize the luminosity and large bore magnets to accommodate adequate shielding for the decay products. Furthermore, long straight sections must be avoided to mitigate the dose hazard induced by the collimated neutrino beams produced by the muon decay, hence dipoles and quadrupoles must be combined in the same magnets. In this contribution we will present the preliminary 2D design of a superconducting magnet based on the block-coil concept that meets the requirements needed for the muon collider ring, focusing both on the electromagnetic and mechanical aspects.

AB - In the framework of the IMCC (International Muon Collider Collaboration), a feasibility study for a collider ring 10km long with muons having a center of mass energy of 10 TeV is currently being carried out. The superconducting magnets represent one of the most challenging components of the collider stage of such a facility: indeed, the need for high fields, large apertures and dipole + quadrupole combined function require technological choices at the edge of the status of the art. These requirements arise from the short lifetime at rest of the muons, 2.2 μs, which brings the need for a compact collider to maximize the luminosity and large bore magnets to accommodate adequate shielding for the decay products. Furthermore, long straight sections must be avoided to mitigate the dose hazard induced by the collimated neutrino beams produced by the muon decay, hence dipoles and quadrupoles must be combined in the same magnets. In this contribution we will present the preliminary 2D design of a superconducting magnet based on the block-coil concept that meets the requirements needed for the muon collider ring, focusing both on the electromagnetic and mechanical aspects.

KW - Accelerator magnets

KW - block coil magnets

KW - muon collider

KW - superconducting magnets

U2 - 10.1109/TASC.2024.3510234

DO - 10.1109/TASC.2024.3510234

M3 - Article

AN - SCOPUS:85211488224

SN - 1051-8223

VL - 35

JO - IEEE Transactions on Applied Superconductivity

JF - IEEE Transactions on Applied Superconductivity

IS - 5

M1 - 4000405

ER -

Preliminary Design of a Block-Coil Magnet for the Muon Collider Ring

Abstract

Keywords

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