References

Please cite the developers of the programs used to generate results used in a paper or presentation.

The list of suggested citations for each program is provided below.

BBQ

[1] M. Mentink et al., “Quench Behavior of the HL-LHC Twin Aperture Orbit Correctors”, IEEE Trans. on Appl. Supercond. 28, p 4004806 (2018).

[2] STEAM: Simulation of Transient Effects in Accelerator Magnets, https://cern.ch/steam

CERNGetDP

[1] P. Dular, C. Geuzaine, F. Henrotte, and W. Legros, “A general environment for the treatment of discrete problems and its application to the finite element method,” IEEE Transactions on Magnetics, vol. 34, no. 5, pp. 3395–3398, 1998. DOI: 10.1109/20.717799.

[2] E. Schnaubelt. “CERNGetDP”, https://cern.ch/cerngetdp

COSIM

[1] L. Bortot et al., "STEAM: A hierarchical cosimulation framework for superconducting accelerator magnet circuits." IEEE Transactions on applied superconductivity 28.3 (2017): 1-6.

[2] M. Maciejewski, “Co-simulation of transient effects in superconducting accelerator magnets,” Ph.D. dissertation, Tech. Univ., Łód´z, Poland, 2018.

[3] STEAM: Simulation of Transient Effects in Accelerator Magnets, https://cern.ch/steam

FiQuS

[1] A. Vitrano et al, "An Open-Source Finite Element Quench Simulation Tool for Superconducting Magnets," in IEEE Transactions on Applied Superconductivity, vol. 33, no. 5, pp. 1-6, Aug. 2023, Art no. 4702006, doi: 10.1109/TASC.2023.3259332.

[2] STEAM: Simulation of Transient Effects in Accelerator Magnets, https://cern.ch/steam

LEDET

[1] E. Ravaioli et al., "Lumped-element dynamic electro-thermal model of a superconducting magnet," Cryogenics, 2016.

[2] E. Ravaioli, "CLIQ," Ph.D. dissertation, Enschede, 2015, presented on 19 June 2015.

[3] STEAM: Simulation of Transient Effects in Accelerator Magnets, https://cern.ch/steam

[4, for LEDET 3D simulations] E. Ravaioli, O. Tranum Arnegaard, A. Verweij, M. Wozniak, "Quench Transient Simulation in a Self-Protected Magnet With a 3-D Finite-Difference Scheme", IEEE Trans. on Appl. SC, 2022.

NICQS

Coming.

[] STEAM: Simulation of Transient Effects in Accelerator Magnets, https://cern.ch/steam

ProteCCT

[1] M. Mentink et al., “Quench Behavior of the HL-LHC Twin Aperture Orbit Correctors”, IEEE Trans. on Appl. Supercond. 28, p 4004806 (2018).

[2] STEAM: Simulation of Transient Effects in Accelerator Magnets, https://cern.ch/steam

PyCoSim

Coming.

[] STEAM: Simulation of Transient Effects in Accelerator Magnets, https://cern.ch/steam

STEAM-SDK

SIGMA

[1] L. Bortot, B. Auchmann, I. Cortes Garcia, A. M. Fernandez Navarro, M. Maciejewski, M. Prioli, S. Schöps, A. Verweij, “A 2-D Finite-Element Model for Electro-Thermal Transients in Accelerator Magnets”, IEEE Transactions on Magnetics, 2017

[2] STEAM: Simulation of Transient Effects in Accelerator Magnets, https://cern.ch/steam

Additionally for pySIGMA:

[3] J. Lidholm, M. Wozniak, https://steam-pysigma.docs.cern.ch/

For questions please contact

STEAM Team