The 16 T Dipole Development Program for FCC and HE-LHC

D. Schoerling
D. Arbelaez
B. Auchmann
M. Bajko
A. Ballarino
E. Barzi
G. Bellomo
M. Benedikt
S. Izquierdo Bermudez
B. Bordini
L. Bottura
L. Brouwer
P. Bruzzone
B. Caiffi
S. Caspi
A. Chakraborti
E. Coatanea
G. de Rijk
M. Dhalle
M. Durante
P. Fabbricatore
S. Farinon
H. Felice
A. Fernandez
I. Sancho Fernandez
P. Gao
B. Gold
T. Gortsas
S. Gourlay
M. Juchno
V. Kashikhin
C. Kokkinos
S. Kokkinos
K. Koskinen
F. Lackner
C. Lorin
K. Loukas
A. Louzguiti
K. Lyytikainen
S. Mariotto
M. Marchevsky
G. Montenero
J. Munilla
I. Novitski
T. Ogitsu
A. Pampaloni
J.C. Perez
C. Pes
C. Petrone
D. Polyzos
S. Prestemon
M. Prioli
A.M. Ricci
J.M. Rifflet
E. Rochepault
S. Russenschuck
T. Salmi
I.A. Santillana
F. Savary
C. Scheuerlein
M. Segreti
C. Senatore
M. Sorbi
M. Statera
A. Stenvall
L. Tavian
T. Tervoort
D. Tommasini
F. Toral
R. Valente
G. Velev
A.P. Verweij
S. Wessel
F. Wolf
F. Zimmermann
A.V. Zlobin

Open link

Publication date

January 2019

DOI

10.1109/TASC.2019.2900556

Publisher

Institute of Electrical and Electronics Engineers (IEEE)

Abstract

A future circular collider (FCC) with a center-of-mass energy of 100 TeV and a circumference of around 100 km, or an energy upgrade of the LHC (HE-LHC) to 27 TeV require bending magnets providing 16 Tin a SO-mm aperture. Several development programs for these magnets, based on Nb3Sn technology, are being pursued in Europe and in the U.S. In these programs, cos-theta, block-type, common-coil, and canted-cos-theta magnets are explored; first model magnets are under manufacture; limits on conductor stress levels are studied; and a conductor with enhanced characteristics is developed. This paper summarizes and discusses the status, plans, and preliminary results of these programs