Your search keyword '"Mangiarotti, Franco"' showing total 74 results

1. Performance of a MQXF Nb3Sn Quadrupole Magnet Under Different Stress Level

Author

Bermudez, Susana Izquierdo, Ambrosio, Giorgio, Bordini, Bernardo, Bourcey, Nicolas, Ferracin, Paolo, Troitino, Jose Ferradas, Troitino, Salvador Ferradas, Fiscarelli, Lucio, Fleiter, Jerome, Guinchard, Michael, Mangiarotti, Franco, Perez, Juan Carlos, Takala, Eelis, and Todesco, Ezio

Subjects

Physics - Applied Physics

Abstract

In a dipole or in a quadrupole accelerator magnet, the displacement of the coil turns induced by the electromagnetic forces can cause quenches limiting the magnet performance. For this reason, an azimuthal preload is applied to avoid azimuthal movements of the coil up to the required operational current. However, several tests showed that accelerator magnets can operate with a partial preload, i.e. that coil unloading during the ramp does not prevent reaching higher currents. This issue is particularly relevant for Nb3Sn magnets, where the loads applied to the Nb3Sn filaments can reach the degradation limits of critical current. In order to investigate the impact of coil preload on the quench performance, the MQXFS6 short model quadrupole for the High Luminosity Upgrade was tested under an azimuthal preload at 80% of the short sample current, reaching 93% of short sample current at 1.9 K. The preload was then released to 60%, still showing ability to operate in the range of 80-85% of short sample current as required by HL-LHC project. With this lower preload, the ability of going above 90% of short sample was lost, and a significant training appeared above 85%. When the preload was restored to the original 80% value, the magnet reached with few quenches 95% of short sample (13.4 T peak field). Magnetic measurements confirm the larger movement of the coil in the case with lower preload, and agree with finite element simulations.

Published

2022

2. The Development of MBRD Magnets, the Separation/Recombination Dipoles for the LHC High Luminosity Upgrade

Author

Farinon, Stefania, primary, Angius, Silvano, additional, Barutti, Alberto, additional, Bersani, Andrea, additional, Bracco, Michela, additional, Caiffi, Barbara, additional, Fabbricatore, Pasquale, additional, Fiscarelli, Lucio, additional, Foussat, Arnaud, additional, Gagno, Andrea, additional, Guinchard, Michael, additional, Levi, Filippo, additional, Mangiarotti, Franco, additional, Novelli, Daniel, additional, Pampaloni, Alessandra, additional, Sala, Nicola, additional, Todesco, Ezio, additional, Valle, Nicolò, additional, Verardo, Alessio, additional, and Willering, Gerard, additional

Published

2024

3. Test Results of the CERN HL-LHC Low-$\beta$ Quadrupole Short Models MQXFS3c and MQXFS4

Author

Mangiarotti, Franco, Bajas, Hugues, Ambrosio, Giorgio, Bajko, Marta, Bordini, Bernardo, Bourcey, Nicolas, Duda, Michal, Desbiolles, Vincent, Feuvrier, Jerome, Fleiter, Jerome, Bermudez, Susana Izquierdo, Chiuchiolo, Antonella, Devred, Arnaud, Ferracin, Paolo, Fiscarelli, Lucio, Mentink, Matthias, Nobrega, Alfred, Pepitone, Kevin, Ravaioli, Emmanuele, Schmalzle, Jesse, Todesco, Ezio, Perez, Juan Carlos, Vallone, Giorgio, Willering, Gerard, and Yu, Miao

Subjects

Nb3Sn, low beta quadrupole, quench, superconducting magnets, Condensed Matter Physics, Electrical and Electronic Engineering, Materials Engineering, General Physics

Abstract

For the high luminosity upgrade of the CERN large hadron collider, lower β∗ quadrupole magnets based on advanced Nb3Sn conductors will be installed on each side of the ATLAS and compact muon solenoid (CMS) experiment insertion zones. As part of the technological developments needed to achieve the required field gradient of 132.6 T/m within a 150-mm aperture, short length model magnets, named MQXFS, are tested both at the CERN SM18 and Fermilab test facilities. The model magnets rely on two types of Nb3Sn conductors (restack rod process (RRP) and powder-in-tube (PIT)) and on an innovative bladders and keys design to provide mechanical support against the Lorentz forces. In 2016 and 2017, the powering tests of the first two models MQXFS3 (RRP) and MQXFS5 (PIT) proved that nominal performance (16.5 kA) could be reached with excellent memory of the quench current after thermal cycle. However both magnets showed a slow training behavior with clear observations of voltage disturbances before the quench. Besides, only MQXFS5 could reach ultimate current (17.9 kA) whereas erratic behavior was observed on MQXFS3 due to conductor local degradation at the head of one of the coils. In 2018, this limiting coil was changed and the applied azimuthal prestress increased. While ultimate current could then be reached, no stable current could be maintained due to identified defect on the outer layer of the new coil. Finally the outcome of the test of the new model MQXFS4, featuring the final RRP conductors that will be used for the series production and variation on the inner layer quench heater designs are here reported in details.

Published

2019

4. The HL-LHC Low-β Quadrupole Magnet MQXF: From Short Models to Long Prototypes

Author

Ferracin, Paolo, Ambrosio, Giorgio, Anerella, Michael, Bajas, Hugues, Bajko, Marta, Bordini, Bernardo, Bossert, Rodger, Bourcey, Nicolas, Cheng, Daniel W, Chlachidze, Guram, Cooley, Lance D, Troitino, Salvador Ferradas, Fiscarelli, Lucio, Fleiter, Jerome, Guinchard, Michael, Bermudez, Susana Izquierdo, Krave, Steven, Lackner, Friedrich, Mangiarotti, Franco, Marchevsky, Maxim, Marinozzi, Vittorio, Muratore, Joseph, Nobrega, Alfred, Pan, Heng, Perez, Juan Carlos, Pong, Ian, Prestemon, Soren, Prin, Herve, Ravaioli, Emmanuele, Sabbi, Gian Luca, Schmalzle, Jesse, Tavares, Sandra Sequeira, Stoynev, Stoyan, Todesco, Ezio, Vallone, Giorgio, Wanderer, Peter, Wang, Xiaorong, and Yu, Miao

Subjects

Nuclear and Plasma Physics, Physical Sciences, Bioengineering, High Luminosity LHC, Interaction Regions, Low-beta Quadrupoles, Nb3Sn magnets, ATAP-2019, ATAP-SMP, ATAP-GENERAL, Condensed Matter Physics, Electrical and Electronic Engineering, Materials Engineering, General Physics, Electrical engineering, Condensed matter physics

Abstract

Among the components to be upgraded in LHC interaction regions for the HiLumi-LHC projects are the inner triplet (or low-β) quadrupole magnets, denoted as Q1, Q2a, Q2b, and Q3. The new quadrupole magnets, called MQXF, are based on Nb3Sn superconducting magnet technology and operate at a gradient of 132.6 T/m, with a conductor peak field of 11.4 T. Q1 and Q3 are composed of magnets (called MQXFA) fabricated by the U.S. Accelerator Upgrade Project (AUP), with a magnetic length of 4.2 m. Q2a and Q2b consist of magnets (called MQXFB) fabricated by CERN, with a magnetic length of 7.15 m. After a series of short models, constructed in close collaboration by the US and CERN, the development program is now entering in the prototyping phase, with CERN on one side and BNL, FNAL, and LBNL on the other side assembling and testing their first long magnets We provide in this paper a description of the status of the MQXF program, with a summary of the short model test results, including quench performance, and mechanics, and an update on the fabrication, assembly, and test of the long prototypes.

Published

2019

5. Validation of the Protection Scheme for the HL-LHC MBRD Magnet by Simulations and Prototype Tests

Author

Caiffi, Barbara, Bender, Lennard, Bersani, Andrea, Bracco, Michela, Farinon, Stefania, Foussat, Arnaud, Gagno, Andrea, Levi, Filippo, Mangiarotti, Franco, Ninet, Gaelle, Novelli, Daniel, Pampaloni, Alessandra, Ravaioli, Emmanuele, Sala, Nicola, Todesco, Ezio, and Willering, Gerard

Abstract

The High-Luminosity upgrade of the Large Hadron Collider (LHC) (Todesco et al., 2021) foresees the replacement of the magnets around the interaction points of the ATLAS and CMS experiments at CERN. One of the new magnets is the separation-recombination dipole, also called Main Bending Recombination Dipole (MBRD)(Caiffi et al., 2021), (Levi et al., 2022) in the D2 cryomagnet assembly. It consists of a cosine-theta, double aperture with same polarity, winded with a Nb-Ti Rutherford cable, with a central field of 4.5 T and a magnetic length of 7.78 m, which generates an integrated magnetic field of 35 Tm, inside of a bore 105 mm in diameter. The magnet is a collaborative effort with a design and production follow up by INFN Genova, production by ASG Superconductors, cold mass assembly and test by CERN. One 1.6 m short model and a full-scale prototype have been fully tested, while four series magnets and 2 spares are currently being built. To cope with a stored energy of 2.2 MJ in the single layer magnet, the quench heater technology has been optimized and dimensioned to limit the hot spot temperature to 300 K. This paper will describe the design choices for the tested protection scheme and the results obtained by the test, including failure case studies. The data will be compared to the STEAM-LEDET (Ravaioli et al., 2016) simulations and used to further validate the modeling parameters. With the obtained results from the tests and from modeling, the protection scheme has been validated and will be applied in the series magnet production.

Published

2024

6. Fabrication and Test of the Fourth Prototype of the D2 Orbit Corrector Dipole for HL-LHC

Author

Ilardi, Veronica, Felice, Helene, Feuvrier, Jerome, Fiscarelli, Lucio, Foussat, Arnaud P., Kirby, Glyn, Kosowski, Filip, Mangiarotti, Franco J., Pincot, Francois-Olivier, Rogacki, Piotr T., Todesco, Ezio, Tommasini, Davide, Urscheler, Cedric, and Willering, Gerard

Abstract

As part of the High-Luminosity upgrade project (HL-LHC) for the Large Hadron Collider (LHC) at CERN, new double-aperture beam orbit corrector magnets will be installed near the recombination dipole (D2). These magnets are 2.2 m long Nb–Ti dipoles based on the Canted Cosine-Theta (CCT) design. They provide an in bore magnetic field of 2.60 T at 394 A in a 105 mm aperture with an integrated field of 5 Tm. The fourth full-length prototype was built and tested at CERN. Its design is based on the best engineering practices from previous prototypes. In this paper we first report on recent improvements in the manufacturing process, focusing on the feedback from winding and on the optimization of the impregnation phase. The magnetic measurements carried out at warm and cold temperatures are then reported. Finally, the results of powering tests at 1.9 K and 4.5 K are presented. The magnet meets the dimensional, electrical and magnetic requirements, and is a valid reference for the HL-LHC series production that is currently being carried out in collaboration between CERN and Institute of High Energy Physics (IHEP).

Published

2024

7. Curved-Canted-Cosine-Theta (CCCT) Dipole Prototype Development at CERN

Author

Haziot, Ariel, Kirby, Glyn, Dallocchio, Alessandro, Devred, Arnaud, Foussat, Arnaud, Gentini, Luca, Mangiarotti, Franco J., Pentella, Mariano, Petrone, Carlo, Pincot, Francois-Olivier, Rigaud, Jean-Sebastien, and Guardia-Valenzuela, Jorge

Abstract

Due to its flexibility in generating advanced field harmonic corrections and potential for low cost compared to traditional designs, the Canted Cosine Theta (CCT) configuration is particularly interesting for compact particle accelerators and gantries for medical applications. This article presents the design of a curved demonstrator named Fusillo, a Canted Cosine Theta Nb-Ti dipole magnet that is being developed at CERN, featuring a large aperture of 236 mm, a small bending radius of 1 m, a bending angle of 90$^{\circ }$, and multi-harmonic field correction, with a 3.61 T conductor peak field. We detail the magnetic coil design, incorporating high-order magnetic field correction of the errors produced by the heavily curved coil, peak field reduction at the coil ends, the development of a new rope type cable, and the mechanical design and the development of the former that supports the coil and provides the curved shape. We also present the first results of a subscale model used to qualify the coil's former manufacturing process, the rope cable, the coil winding optimization, and the coil impregnation system.

Published

2024

8. Status of the MQXFB Nb3Sn Quadrupoles for the HL-LHC

Author

Bermudez, Susana Izquierdo, primary, Ambrosio, Giorgio, additional, Apollinari, Giorgio, additional, Ballarino, Amalia, additional, Barth, Christian, additional, Crouvizier, Mickael Denis, additional, Ramos, Delio Duarte, additional, Devred, Arnaud, additional, Feher, Sandor, additional, Felice, Helene, additional, Ferracin, Paolo, additional, Troitino, Jose Ferradas, additional, Guinchard, Michael, additional, Lusa, Nicholas, additional, Mangiarotti, Franco, additional, Milanese, Attilio, additional, Moros, Alice, additional, Prin, Herve, additional, Russenschuck, Stephan, additional, Sgobba, Stefano, additional, Todesco, Ezio, additional, and Willering, Gerard, additional

Published

2023

9. The MBRD Dipoles for the Luminosity Upgrade at the LHC: from Prototype Tests to the Series Production

Author

Farinon, Stefania, primary, Angius, Silvano, additional, Barutti, Alberto, additional, Bersani, Andrea, additional, Caiffi, Barbara, additional, Fabbricatore, Pasquale, additional, Fiscarelli, Lucio, additional, Foussat, Arnaud, additional, Guinchard, Michael, additional, Levi, Filippo, additional, Mangiarotti, Franco, additional, Ninet, Gaelle, additional, Novelli, Daniel, additional, Pampaloni, Alessandra, additional, Todesco, Ezio, additional, Valle, Nico, additional, Verardo, Alessio, additional, and Willering, Gerard, additional

Published

2023

10. Protection Scheme Effectiveness Study for the High-Luminosity LHC MBRD Magnet

Author

Caiffi, Barbara, primary, Bender, Lennard, additional, Bersani, Andrea, additional, Farinon, Stefania, additional, Foussat, Arnaud, additional, Levi, Filippo, additional, Mangiarotti, Franco, additional, Musenich, Riccardo, additional, Novellil, Daniel, additional, Pampaloni, Alessandra, additional, Ravaioli, Emmanuele, additional, Todesco, Ezio, additional, and Willering, Gerard, additional

Published

2023

11. Validation of the Protection Scheme for the HL-LHC MBRD Magnet by Simulations and Prototype Tests

Author

Caiffi, Barbara, primary, Bender, Lennard, additional, Bersani, Andrea, additional, Bracco, Michela, additional, Farinon, Stefania, additional, Foussat, Arnaud, additional, Gagno, Andrea, additional, Levi, Filippo, additional, Mangiarotti, Franco, additional, Ninet, Gaelle, additional, Novelli, Daniel, additional, Pampaloni, Alessandra, additional, Ravaioli, Emmanuele, additional, Sala, Nicola, additional, Todesco, Ezio, additional, and Willering, Gerard, additional

Published

2023

12. Performance of a MQXF Nb3Sn Quadrupole Magnet Under Different Stress Level

Author

Bermudez, Susana Izquierdo, primary, Ambrosio, Giorgio, additional, Bordini, Bernardo, additional, Bourcey, Nicolas, additional, Devred, Arnaud, additional, Ferracin, Paolo, additional, Troitino, Jose Ferradas, additional, Troitino, Salvador Ferradas, additional, Fiscarelli, Lucio, additional, Fleiter, Jerome, additional, Guinchard, Michael, additional, Mangiarotti, Franco, additional, Perez, Juan Carlos, additional, Takala, Eelis, additional, and Todesco, Ezio, additional

Published

2022

13. Quench Behavior of Prototype Nb-Ti HL-LHC Dipole Canted Cos-Theta Orbit Corrector Magnets

Author

Wozniak, Mariusz, primary, Ravaioli, Emmanuele, additional, Mangiarotti, Franco, additional, Mentink, Matthias, additional, Kirby, Glyn, additional, Verweij, Arjan, additional, Xu, Qingjin, additional, and Wu, Wei, additional

Published

2022

14. Status of the MQXFB Nb$_3$Sn quadrupoles for the HL-LHC

Author

Izquierdo Bermudez, Susana, Ambrosio, Giorgio, Apollinari, Giorgio, Ballarino, Amalia, Barth, Christian, Crouvizier, Mickael Denis, Duarte Ramos, Delio, Devred, Arnaud, Feher, Sandor, Felice, Helene, Ferracin, Paolo, Ferradas Troitino, Jose, Guinchard, Michael, Lusa, Nicholas, Mangiarotti, Franco, Milanese, Attilio, Moros, Alice, Prin, Herve, Russenschuck, Stephan, Sgobba, Stefano, Todesco, Ezio, and Willering, Gerard

Subjects

Particle Physics - Theory

Abstract

The cold powering test of the first two prototypes of the MQXFB quadrupoles (MQXFBP1, now disassembled, and MQXFBP2), the Nb3Sn inner triplet magnets to be installed in the HL-LHC, has validated many features of the design, such as field quality and quench protection, but has found performance limitations. In fact, both magnets showed a similar phenomenology, characterized by reproducible quenches in the straight part inner layer pole turn, with absence of training and limiting the performance at 93% (MQXFBP1) and 98% (MQXFBP2) of the nominal current at 1.9 K, required for HL-LHC operation at 7 TeV. Microstructural inspections of the quenching section of the limiting coil in MQXFBP1 have identified fractured Nb3Sn sub-elements in strands located at one specific position of the inner layer pole turn, allowing to determine the precise origin of the performance limitation. In this paper we outline the strategy that has been defined to address the possible sources of performance limitation, namely coil manufacturing, magnet assembly and integration in the cold mass.

Published

2022

15. Status of the MQXFB Nb3Sn Quadrupoles for the HL-LHC

Author

Bermudez, Susana Izquierdo, Ambrosio, Giorgio, Apollinari, Giorgio, Ballarino, Amalia, Barth, Christian, Crouvizier, Mickael Denis, Ramos, Delio Duarte, Devred, Arnaud, Feher, Sandor, Felice, Helene, Ferracin, Paolo, Troitino, Jose Ferradas, Guinchard, Michael, Lusa, Nicholas, Mangiarotti, Franco, Milanese, Attilio, Moros, Alice, Prin, Herve, Russenschuck, Stephan, Sgobba, Stefano, Todesco, Ezio, and Willering, Gerard

Abstract

The cold powering test of the first two prototypes of the MQXFB quadrupoles (MQXFBP1, now disassembled, and MQXFBP2), the Nb3Sn inner triplet magnets to be installed in the HL-LHC, has validated many features of the design, such as field quality and quench protection, but has found performance limitations. In fact, both magnets showed a similar phenomenology, characterized by reproducible quenches in the straight part inner layer pole turn, with absence of training and limiting the performance at 93% (MQXFBP1) and 98% (MQXFBP2) of the nominal current at 1.9 K, required for HL-LHC operation at 7 TeV. Microstructural inspections of the quenching section of the limiting coil in MQXFBP1 have identified fractured Nb3Sn sub-elements in strands located at one specific position of the inner layer pole turn, allowing to determine the precise origin of the performance limitation. In this paper we outline the strategy that has been defined to address the possible sources of performance limitation, namely coil manufacturing, magnet assembly and integration in the cold mass.

Published

2023

16. Modelling V-I Measurements of Nb3Sn Accelerator Magnets with Conductor Degradation

Author

Keijzer, Ruben, primary, Succi, Giovanni, additional, Willering, Gerard, additional, Bordini, Bernardo, additional, Bottura, Luca, additional, Mangiarotti, Franco, additional, Dhalle, Marc, additional, and Ten Kate, Herman, additional

Published

2022

17. Superconductors for fusion: a roadmap

Author

Mitchell, Neil, primary, Zheng, Jinxing, additional, Vorpahl, Christian, additional, Corato, Valentina, additional, Sanabria, Charlie, additional, Segal, Michael, additional, Sorbom, Brandon, additional, Slade, Robert, additional, Brittles, Greg, additional, Bateman, Rod, additional, Miyoshi, Yasuyuki, additional, Banno, Nobuya, additional, Saito, Kazuyoshi, additional, Kario, Anna, additional, Ten Kate, Herman, additional, Bruzzone, Pierluigi, additional, Wesche, Rainer, additional, Schild, Thierry, additional, Bykovskiy, Nikolay, additional, Dudarev, Alexey, additional, Mentink, Matthias, additional, Mangiarotti, Franco Julio, additional, Sedlak, Kamil, additional, Evans, David, additional, Van Der Laan, Danko C, additional, Weiss, Jeremy D, additional, Liao, Min, additional, and Liu, Gen, additional

Published

2021

18. Powering Performance and Endurance Beyond Design Limits of HL-LHC Low-Beta Quadrupole Model Magnets

Author

Mangiarotti, Franco J., primary, Ferradas Troitino, Salvador, additional, Duda, Michal, additional, Bajko, Marta, additional, Bottura, Luca, additional, Desbiolles, Vincent, additional, Elekes, Gyopar, additional, Ferradas Troitino, Jose, additional, Feuvrier, Jerome, additional, Ferracin, Paolo, additional, Izquierdo Bermudez, Susana, additional, Perez, Juan C., additional, Ravaioli, Emmanuele, additional, Takala, Eelis, additional, Todesco, Ezio, additional, and Willering, Gerard, additional

Published

2021

19. The Development of the Superconducting Dipoles D2 for the High Luminosity Upgrade of LHC

Author

Caiffi, Barbara, primary, Bersani, Andrea, additional, Cereseto, Roberto R., additional, Fabbricatore, Pasquale, additional, Farinon, Stefania, additional, Fiscarelli, Lucio, additional, Foussat, Arnaud, additional, Levi, Filippo, additional, Mangiarotti, Franco, additional, Pampaloni, Alessandra, additional, Todesco, Ezio, additional, Troitino, Salvador Ferradas, additional, and Willering, Gerard, additional

Published

2021

20. Progress in the Development of the Nb3Sn MQXFB Quadrupole for the HiLumi Upgrade of the LHC

Author

Bermudez, Susana Izquierdo, primary, Ambrosio, Giorgio, additional, Apollinari, Giorgio, additional, Bajko, Marta, additional, Bordini, Bernardo, additional, Bourcey, Nicolas, additional, Ramos, Delio Duarte, additional, Ferracin, Paolo, additional, Fiscarelli, Lucio, additional, Feher, Sandor, additional, Fleiter, Jerome, additional, Guinchard, Michael, additional, Lackner, Friedrich, additional, Lusa, Nicholas, additional, Mangiarotti, Franco, additional, Milanese, Attilio, additional, Principe, Rosario, additional, Perez, Juan Carlos, additional, Prin, Herve, additional, Pulikowski, Dariusz, additional, Takala, Eelis, additional, Ravaioli, Emmanuele, additional, and Todesco, Ezio, additional

Published

2021

21. Quench Protection Studies for the High Luminosity LHC Nb$_3$Sn Quadrupole Magnets

Author

Ravaioli, Emmanuele, primary, Ambrosio, Giorgio, additional, Bajas, Hugues, additional, Duda, Michal, additional, Ferracin, Paolo, additional, Troitino, Jose Ferradas, additional, Bermudez, Susana Izquierdo, additional, Mangiarotti, Franco, additional, Marinozzi, Vittorio, additional, Mentink, Matthias, additional, Rodriguez-Mateos, Felix, additional, Todesco, Ezio, additional, Verweij, Arjan P., additional, and Wollmann, Daniel, additional

Published

2021

22. Assessment of MQXF Quench Heater Insulation Strength and Test of Modified Design

Author

Baldini, Maria, primary, Ambrosio, Giorgio, additional, Anerella, Michael D., additional, Bermudez, Susana I., additional, Bossert, Rodger C., additional, Ferracin, Paolo, additional, Krave, Steven, additional, Mangiarotti, Franco J., additional, Marinozzi, Vittorio, additional, Nobrega, Alfred, additional, Orozco, Charles, additional, Schmalzle, Jesse, additional, Stoynev, Stoyan, additional, Todesco, Ezio, additional, and Yu, Miao, additional

Published

2021

23. Superconductors for fusion: a roadmap

Author

Mitchell, Neil, Zheng, Jinxing, Vorpahl, Christian, Corato, Valentina, Sanabria, Charlie, Segal, Michael, Sorbom, Brandon, Slade, Robert, Brittles, Greg, Bateman, Rod, Miyoshi, Yasuyuki, Banno, Nobuya, Saito, Kazuyoshi, Kario, Anna, Ten Kate, Herman, Bruzzone, Pierluigi, Wesche, Rainer, Schild, Thierry, Bykovskiy, Nikolay, Dudarev, Alexey, Mentink, Matthias, Mangiarotti, Franco Julio, Sedlak, Kamil, Evans, David, Van Der Laan, Danko C., Weiss, Jeremy D., Liao, Min, Liu, Gen, Mitchell, Neil, Zheng, Jinxing, Vorpahl, Christian, Corato, Valentina, Sanabria, Charlie, Segal, Michael, Sorbom, Brandon, Slade, Robert, Brittles, Greg, Bateman, Rod, Miyoshi, Yasuyuki, Banno, Nobuya, Saito, Kazuyoshi, Kario, Anna, Ten Kate, Herman, Bruzzone, Pierluigi, Wesche, Rainer, Schild, Thierry, Bykovskiy, Nikolay, Dudarev, Alexey, Mentink, Matthias, Mangiarotti, Franco Julio, Sedlak, Kamil, Evans, David, Van Der Laan, Danko C., Weiss, Jeremy D., Liao, Min, and Liu, Gen

Abstract

With the first tokamak designed for full nuclear operation now well into final assembly (ITER), and a major new research tokamak starting commissioning (JT60SA), nuclear fusion is becoming a mainstream potential energy source for the future. A critical part of the viability of magnetic confinement for fusion is superconductor technology. The experience gained and lessons learned in the application of this technology to ITER and JT60SA, together with new and improved superconducting materials, is opening multiple routes to commercial fusion reactors. The objective of this roadmap is, through a series of short articles, to outline some of these routes and the materials/technologies that go with them.

Published

2021

24. Test of the First Full-Length Prototype of the HL-LHC D2 Orbit Corrector Based on Canted Cosine Theta Technology

Author

Mangiarotti, Franco J., Duda, Michal, Fiscarelli, Lucio, Kirby, Glyn, Bajko, Marta, Coll, Dominic, Desbiolles, Vincent, Feuvrier, Jerome, Guyon, Jean-Luc, Mazet, Jacky, Mentink, Matthias, Van Nugteren, Jeroen, Pepitone, Kevin, Perez, Juan C., Pincot, Francois-O, de Rijk, Gijs, Robertson, Jeff, Steckert, Jens, Todesco, Ezio, Willering, Gerard, Mangiarotti, Franco J., Duda, Michal, Fiscarelli, Lucio, Kirby, Glyn, Bajko, Marta, Coll, Dominic, Desbiolles, Vincent, Feuvrier, Jerome, Guyon, Jean-Luc, Mazet, Jacky, Mentink, Matthias, Van Nugteren, Jeroen, Pepitone, Kevin, Perez, Juan C., Pincot, Francois-O, de Rijk, Gijs, Robertson, Jeff, Steckert, Jens, Todesco, Ezio, and Willering, Gerard

Abstract

In the context of CERN's high-luminosity upgrade project (HL-LHC) for the Large Hadron Collider (LHC), a new double aperture beam orbit corrector magnets will be installed near the recombination dipole (D2). These 2.2 m long NbTi dipoles are built with the canted cosine theta (CCT) technique. The two independently powered apertures are oriented such that their field vectors are perpendicular to each other and to the direction of the beams. A full-length double aperture prototype was built and tested at CERN in the SM18 test facility. Here we present the results of powering tests at 1.9 and 4.5 K: training of each aperture, magnetic field quality and cross-talk effects, quench detection system effectiveness, quench protection performance and quench-back with several energy extraction systems.

Published

2020

25. Erratum to “The HL-LHC Low-β Quadrupole Magnet MQXF: From Short Models to Long Prototypes” [Aug 19 Art. no. 4001309]

Author

Ferracin, Paolo, primary, Ambrosio, Giorgio, additional, Anerella, Michael, additional, Bajas, Hugues, additional, Bajko, Marta, additional, Bordini, Bernardo, additional, Bossert, Rodger, additional, Bourcey, Nicolas, additional, Cheng, Daniel W., additional, Chlachidze, Guram, additional, Cooley, Lance D., additional, Troitino, Salvador Ferradas, additional, Fiscarelli, Lucio, additional, Fleiter, Jerome, additional, Guinchard, Michael, additional, Bermudez, Susana Izquierdo, additional, Krave, Steven, additional, Lackner, Friedrich, additional, Mangiarotti, Franco, additional, Marchevsky, Maxim, additional, Marinozzi, Vittorio, additional, Muratore, Joseph, additional, Nobrega, Alfred, additional, Pan, Heng, additional, Perez, Juan Carlos, additional, Pong, Ian, additional, Prestemon, Soren, additional, Prin, Herve, additional, Ravaioli, Emmanuele, additional, Sabbi, Gian Luca, additional, Schmalzle, Jesse, additional, Tavares, Sandra Sequeira, additional, Stoynev, Stoyan, additional, Todesco, Ezio, additional, Vallone, Giorgio, additional, Wanderer, Peter, additional, Wang, Xiaorong, additional, and Yu, Miao, additional

Published

2020

26. The HL-LHC Short Model Recombination D2 Dipole: Cold Test Results and Analysis

Author

Foussat, Arnaud, primary, Fabbricatore, Pasquale, additional, Mangiarotti, Franco, additional, Perez, Juan Carlos, additional, Bersani, Andrea, additional, Caiffi, Barbara, additional, Farinon, Stefania, additional, Cereseto, Roberto, additional, Levi, Filippo, additional, Id'Bahmane, Oussama, additional, Sahner, Thomas, additional, Bajko, Marta, additional, and Todesco, Ezio, additional

Published

2020

27. Simulated Versus Experimentally Observed Quench Behavior of the HL-LHC Twin Aperture Orbit Corrector Prototype

Author

Mentink, Matthias, primary, Duda, Michal, additional, Mangiarotti, Franco, additional, van Nugteren, Jeroen, additional, Willering, Gerard, additional, and Kirby, Glyn, additional

Published

2020

28. Test of the First Full-Length Prototype of the HL-LHC D2 Orbit Corrector Based on Canted Cosine Theta Technology

Author

Mangiarotti, Franco J., primary, Mazet, Jacky, additional, Mentink, Matthias, additional, Van Nugteren, Jeroen, additional, Pepitone, Kevin, additional, Perez, Juan C., additional, Pincot, Francois-O., additional, de Rijk, Gijs, additional, Robertson, Jeff, additional, Steckert, Jens, additional, Todesco, Ezio, additional, Duda, Michal, additional, Willering, Gerard, additional, Fiscarelli, Lucio, additional, Kirby, Glyn, additional, Bajko, Marta, additional, Coll, Dominic, additional, Desbiolles, Vincent, additional, Feuvrier, Jerome, additional, and Guyon, Jean-Luc, additional

Published

2020

29. Power Tests of the First Nested Orbit Corrector Prototype for HL-LHC

Author

Garcia-Matos, Jesus A., primary, Calero, Jesus, additional, Angel Dominguez, Manuel, additional, Fernandez, Alejandro, additional, Gomez, Pablo, additional, Garcia-Tabares, Luis, additional, Lopez, Daniel, additional, Martinez, Luis Miguel, additional, Martinez, Teresa, additional, Munilla, Javier, additional, Pardo, Jose A., additional, Perez, Jose M., additional, Sobrino, Pablo, additional, Toral, Fernando, additional, Bajko, Marta, additional, Emami, Sohrab, additional, Fiscarelli, Lucio, additional, Guinchard, Michael, additional, Bermudez, Susana Izquierdo, additional, Mangiarotti, Franco J., additional, Perez, Juan C., additional, Todesco, Ezio, additional, and Willering, Gerard, additional

Published

2020

30. Preload Characterization of Short Models of MQXF the Nb3Sn Low-β Quadrupole for the Hi-Lumi LHC

Author

Takala, Eelis, primary, Ambrosio, Giorgio, additional, Bourcey, Nicolas, additional, Cheng, Daniel W., additional, Ferracin, Paolo, additional, Guinchard, Michael, additional, Bermudez, Susana Izquierdo, additional, Mangiarotti, Franco, additional, Pan, Heng, additional, Perez, Juan Carlos, additional, Prestemon, Soren, additional, Vallone, Giorgio, additional, and Strauss, Thomas, additional

Published

2020

31. The HL-LHC Low-$\beta$ Quadrupole Magnet MQXF: from Short Models to Long Prototypes

Author

Ferracin, Paolo, Ambrosio, Giorgio, Anerella, Michael, Bajas, Hugues, Bajko, Marta, Bordini, Bernardo, Bossert, Rodger, Bourcey, Nicolas, Cheng, Daniel W, Chlachidze, Guram, Cooley, Lance D, Troitino, Salvador Ferradas, Fiscarelli, Lucio, Fleiter, Jerome, Guinchard, Michael, Izquierdo Bermudez, Susana, Krave, Steven, Lackner, Friedrich, Mangiarotti, Franco, Marchevsky, Maxim, Marinozzi, Vittorio, Muratore, Joseph, Nobrega, Alfred, Pan, Heng, Perez, Juan Carlos, Pong, Ian, Prestemon, Soren, Prin, Herve, Ravaioli, Emmanuele, Sabbi, Gian Luca, Schmalzle, Jesse, Sequeira Tavares, Sandra, Stoynev, Stoyan, Todesco, Emilov, Vallone, Giorgio, Wanderer, Peter, Wang, Xiaorong, and Yu, Miao

Subjects

Physics::Instrumentation and Detectors, Physics::Accelerator Physics, Accelerators and Storage Rings

Abstract

In order to reduce the beam size by a factor two in the inter-action points, and to increase the rate of collisions by a factorof five, the HL-LHC Project [1] is planning to install in the LHC Interaction Regions (IR) new inner triplet (or low-β) quadru-pole magnets, called MQXF [2]-[6]. With respect to the current triplet quadrupole magnets, MQXF will feature a larger aper-ture, from 70 to 150 mm, a higher peak field, from 8.6 to 11.4 T, and a new superconducting material, Nb3Sn instead of Nb-Ti. Out of the 30 triplets magnets (including spares) that will be installed in the HL-LHC, 20 magnets, called MQXFA and 4.2 m long, will be fabricated by the US Accelerator Research Program (AUP), a continuation of the LARP Program [7]. Among the components to be upgraded in LHC inter- action regions for the HiLumi-LHC projects are the inner triplet (or low-β) quadrupole magnets, denoted as Q1, Q2a, Q2b, and Q3. The new quadrupole magnets, called MQXF, are based on Nb3 Sn superconducting magnet technology and operate at a gradient of 132.6 T/m, with a conductor peak field of 11.4 T. Q1 and Q3 are composed of magnets (called MQXFA) fabricated by the U.S. Ac- celerator Upgrade Project (AUP), with a magnetic length of 4.2 m. Q2a and Q2b consist of magnets (called MQXFB) fabricated by CERN, with a magnetic length of 7.15 m. After a series of short models, constructed in close collaboration by the US and CERN, the development program is now entering in the prototyping phase, with CERN on one side and BNL, FNAL, and LBNL on the other side assembling and testing their first long magnets We provide in this paper a description of the status of the MQXF program, with a summary of the short model test results, including quench performance, and mechanics, and an update on the fabrication, assembly, and test of the long prototypes.

Published

2019

32. Test Results of the CERN HL-LHC Low-beta Quadrupole Short Models MQXFS3c and MQXFS4

Author

Mangiarotti, Franco, Bajas, Hugues, Ambrosio, Giorgio, Bajko, Marta, Bordini, Bernardo, Bourcey, Nicolas, Duda, Michal, Desbiolles, Vincent, Feuvrier, Jerome, Fleiter, Jerome, Bermudez, Susana Izquierdo, Chiuchiolo, Antonella, Devred, Arnaud, Ferracin, Paolo, Fiscarelli, Lucio, Mentink, Matthias, Nobrega, Alfred, Pepitone, Kevin, Ravaioli, Emmanuele, Schmalzle, Jesse, Todesco, Ezio, Perez, Juan Carlos, Vallone, Giorgio, Willering, Gerard, Yu, Miao, Mangiarotti, Franco, Bajas, Hugues, Ambrosio, Giorgio, Bajko, Marta, Bordini, Bernardo, Bourcey, Nicolas, Duda, Michal, Desbiolles, Vincent, Feuvrier, Jerome, Fleiter, Jerome, Bermudez, Susana Izquierdo, Chiuchiolo, Antonella, Devred, Arnaud, Ferracin, Paolo, Fiscarelli, Lucio, Mentink, Matthias, Nobrega, Alfred, Pepitone, Kevin, Ravaioli, Emmanuele, Schmalzle, Jesse, Todesco, Ezio, Perez, Juan Carlos, Vallone, Giorgio, Willering, Gerard, and Yu, Miao

Abstract

For the high luminosity upgrade of the CERN large hadron collider, lower beta* quadrupole magnets based on advanced Nb3Sn conductors will be installed on each side of the ATLAS and compact muon solenoid (CMS) experiment insertion zones. As part of the technological developments needed to achieve the required field gradient of 132.6 T/m within a 150-mm aperture, short length model magnets, named MQXFS, are tested both at the CERN SM18 and Fermilab test facilities. The model magnets rely on two types of Nb3Sn conductors (restack rod process (RRP) and powderin-tube (PIT)) and on an innovative bladders and keys design to provide mechanical support against the Lorentz forces. In 2016 and 2017, the powering tests of the first two models MQXFS3 (RRP) and MQXFS5 (PIT) proved that nominal performance (16.5 kA) could be reached with excellent memory of the quench current after thermal cycle. However both magnets showed a slow training behavior with clear observations of voltage disturbances before the quench. Besides, only MQXFS5 could reach ultimate current (17.9 kA) whereas erratic behavior was observed on MQXFS3 due to conductor local degradation at the head of one of the coils. In 2018, this limiting coil was changed and the applied azimuthal prestress increased. While ultimate current could then be reached, no stable current could be maintained due to identified defect on the outer layer of the new coil. Finally the outcome of the test of the new model MQXFS4, featuring the final RRP conductors that will be used for the series production and variation on the inner layer quench heater designs are here reported in details.

Published

2019

33. Test of Short Model and Prototype of the HL-LHC D2 Orbit Corrector Based on CCT Technology

Author

Mangiarotti, Franco J., Kirby, Glyn, Duda, Michal, Mentink, Matthias, Fiscarelli, Lucio, Bajko, Marta, Coll, Dominic, Desbiolles, Vincent, Feuvrier, Jerome, Mazet, Jacky, Van Nugteren, Jeroen, Pepitone, Kevin, Pincot, Francois-Olivier, de Rijk, Gijs, Robertson, Jeff, Steckert, Jens, Todesco, Ezio, Willering, Gerard, Mangiarotti, Franco J., Kirby, Glyn, Duda, Michal, Mentink, Matthias, Fiscarelli, Lucio, Bajko, Marta, Coll, Dominic, Desbiolles, Vincent, Feuvrier, Jerome, Mazet, Jacky, Van Nugteren, Jeroen, Pepitone, Kevin, Pincot, Francois-Olivier, de Rijk, Gijs, Robertson, Jeff, Steckert, Jens, Todesco, Ezio, and Willering, Gerard

Abstract

In the frame of the high-luminosity upgrade project for the large hadron collider, new twin aperture beam orbit corrector magnets will be installed near the recombination dipole (D2). These magnets are 2.2 m long canted cosine theta NbTi dipoles, with two independently powered apertures oriented such that their field vectors are perpendicular to each other and to the direction of the beams. A 0.5 m model magnet in single and double aperture configuration and a full-length double aperture prototype were built and tested at CERN. In this paper, the performance of these magnets at 1.9 K in terms of training behavior, quench detection and protection, and other tests is discussed. In addition, the thermal response of the magnet to a hypothetical beam discharge is simulated and analyzed.

Published

2019

34. The Automatic Quench Analysis software for the High Luminosity LHC magnets evaluation at CERN

Author

Gomez De La Cruz, Maria De Fatima, Bajas, Hugues, Bajko, Marta, Lorenzo Gomez, Jose Vicente, Mangiarotti, Franco, Reymond, Hubert, Rijllart, Adriaan, and Willering, Gerard

Subjects

Physics::Instrumentation and Detectors, Data Analytics, Physics::Accelerator Physics, Accelerators and Storage Rings, Accelerator Physics

Abstract

The superconducting magnet test facility at CERN, (SM18), has been using the Automatic Quench Analysis (AQA) software to analyse the quench data during the Large Hadron Collider (LHC) magnet test campaign. This application was developed using LabVIEW in the early 2000's by the Measurement Test and Analysis section (MTA) at CERN. During the last few years, the SM18 has been upgraded for the High Luminosity LHC (HL-LHC) magnet prototypes. These HL-LHC magnets demand a high flexibility of the software. The new requirements were that the analysis algorithms should be open, allowing contributions from engineers and physicists with basic programming knowledge, execute automatically a large number of tests, generate reports and be maintainable by the MTA team. The paper contains the description, present status and future evolutions of the new AQA soft-ware that replaces the LabVIEW application., Proceedings of the 16th Int. Conf. on Accelerator and Large Experimental Control Systems, ICALEPCS2017, Barcelona, Spain

Published

2018

35. '''Quench Propagation in Nb <tex-math notation=''''LaTeX''''>$_\text{3}$</tex-math> Sn Cos-Theta 11 T Dipole Model Magnets in High Stress Areas'''

Author

Mangiarotti, Franco J., Willering, Gerard P., Bajas, Hugues, Bajko, Marta, Bordini, Bernardo, Bottura, Luca, Bermudez, Susana Izquierdo, Loffler, Christian H., Gomez, Jose V. Lorenzo, Savary, Frederic, and Probst, Matthias

Published

2018

36. Quench propagation in Nb$_{3}$Sn cos-theta 11 T dipole model magnets in high stress areas

Author

Mangiarotti, Franco J, Willering, Gerard P, Bajas, Hugues, Bajko, Marta, Bordini, Bernardo, Bottura, Luca, Izquierdo Bermudez, Susana, Löffler, Christian H, Gomez, Jose V Lorenzo, Savary, Frederic, and Probst, Matthias

Subjects

Quantitative Biology::Biomolecules, High Energy Physics::Lattice, Accelerators and Storage Rings

Abstract

A large number of training quenches at various currents, temperatures, and ramp rates, have been performed on six 11 T dipole model magnets. Quenches in the midplane of these magnets were of special interest, since the quench current in the last three models measured in 2016 was limited to between 84% and 92% of the magnets short sample limit. Measurements of quench propagation velocity, based on both voltage taps and quench antennas, yield a high propagation velocity of 50 to 80 m/s. Due to the high magnetic field gradient over the width of the midplane turn such a high propagation speed cannot be explained by propagation in longitudinal direction of the strand following the twist pitch. In these cases, current and heat sharing at the thin cable edge (where the field, stress, and cable compaction are high) are likely to provoke strand-to-strand quench propagation at higher velocities than along the strands. This investigation is focused on analyzing the quench propagation along the strands and strand-to-strand of various measured cases.

Published

2018

37. Test of Short Model and Prototype of the HL-LHC D2 Orbit Corrector Based on CCT Technology

Author

Mangiarotti, Franco J., primary, Kirby, Glyn, additional, Duda, Michal, additional, Mentink, Matthias, additional, Fiscarelli, Lucio, additional, Bajko, Marta, additional, Coll, Dominic, additional, Desbiolles, Vincent, additional, Feuvrier, Jerome, additional, Mazet, Jacky, additional, Van Nugteren, Jeroen, additional, Pepitone, Kevin, additional, Pincot, Francois-Olivier, additional, de Rijk, Gijs, additional, Robertson, Jeff, additional, Steckert, Jens, additional, Todesco, Ezio, additional, and Willering, Gerard, additional

Published

2019

38. Quench Protection Study of a 11 T Nb3Sn Model Dipole for the High Luminosity LHC

Author

Bermudez, Susana Izquierdo, primary, Mangiarotti, Franco, additional, Willering, Gerard, additional, Bajko, Marta, additional, Bottura, Luca, additional, Troitino, Jose Ferradas, additional, Guinchard, Michael, additional, Savary, Frederic, additional, and Vallone, Giorgio, additional

Published

2019

39. Tests of the FRESCA2 100 mm Bore Nb3Sn Block-Coil Magnet to a Record Field of 14.6 T

Author

Willering, Gerard, primary, Arnestad, Havard, additional, Bajko, Marta, additional, Bajas, Hugo, additional, Bortot, Lorenzo, additional, Bottura, Luca, additional, Bourcey, Nicolas, additional, Duda, Michal, additional, Ferracin, Paolo, additional, Feuvrier, Jerome, additional, Grosclaude, Philippe, additional, Mangiarotti, Franco, additional, Martins Araujo, Douglas, additional, Perez, Juan Carlos, additional, Petrone, Carlo, additional, Rochepault, Etienne, additional, de Rijk, Gijs, additional, Turi, Daniel, additional, Durante, Maria, additional, Manil, Pierre, additional, Rondeaux, Francoise, additional, and Rifflet, Jean-Michel, additional

Published

2019

40. Test Results of the CERN HL-LHC Low- $\beta$Quadrupole Short Models MQXFS3c and MQXFS4

Author

Mangiarotti, Franco, primary, Bajas, Hugues, additional, Ambrosio, Giorgio, additional, Bajko, Marta, additional, Bordini, Bernardo, additional, Bourcey, Nicolas, additional, Duda, Michal, additional, Desbiolles, Vincent, additional, Feuvrier, Jerome, additional, Fleiter, Jerome, additional, Bermudez, Susana Izquierdo, additional, Chiuchiolo, Antonella, additional, Devred, Arnaud, additional, Ferracin, Paolo, additional, Fiscarelli, Lucio, additional, Mentink, Matthias, additional, Nobrega, Alfred, additional, Pepitone, Kevin, additional, Ravaioli, Emmanuele, additional, Schmalzle, Jesse, additional, Todesco, Ezio, additional, Perez, Juan Carlos, additional, Vallone, Giorgio, additional, Willering, Gerard, additional, and Yu, Miao, additional

Published

2019

41. Power Test of the Second-Generation Compact Linear Collider (CLIC) Nb3Sn Damping Wiggler Short Model

Author

Duda, Michal, primary, Mangiarotti, Franco, additional, Bajko, Marta, additional, Bernhard, Axel, additional, Desbiolles, Vincent, additional, Ferracin, Paolo, additional, Feuvrier, Jerome, additional, Garcia Fajardo, Laura, additional, Lorenzo, Jose, additional, Mazet, Jacky, additional, Perez, Juan Carlos, additional, Schoerling, Daniel, additional, and Willering, Gerard, additional

Published

2019

42. Demountable Toroidal Field Magnets for Use in a Compact Modular Fusion Reactor

Author

Massachusetts Institute of Technology. Department of Nuclear Science and Engineering, Massachusetts Institute of Technology. Plasma Science and Fusion Center, Mangiarotti, Franco Julio, Goh, Jonathan Yanming, Takayasu, Makoto, Bromberg, Leslie, Minervini, Joseph V, Whyte, Dennis G, Massachusetts Institute of Technology. Department of Nuclear Science and Engineering, Massachusetts Institute of Technology. Plasma Science and Fusion Center, Mangiarotti, Franco Julio, Goh, Jonathan Yanming, Takayasu, Makoto, Bromberg, Leslie, Minervini, Joseph V, and Whyte, Dennis G

Abstract

A concept of demountable toroidal field magnets for a compact fusion reactor is discussed. The magnets generate a magnetic field of 9.2 T on axis, in a 3.3 m major radius tokamak. Subcooled YBCO conductors have a critical current density adequate to provide this large magnetic field, while operating at 20 K reduces thermodynamic cooling cost of the resistive electrical joints. Demountable magnets allow for vertical replacement and maintenance of internal components, potentially reducing cost and time of maintenance when compared to traditional sector maintenance. Preliminary measurements of contact resistance of a demountable YBCO electrical joint between are presented.

Published

2018

43. Quench Propagation in Nb $_\text{3}$ Sn Cos-Theta 11 T Dipole Model Magnets in High Stress Areas

Author

Mangiarotti, Franco J., primary, Willering, Gerard P., additional, Bajas, Hugues, additional, Bajko, Marta, additional, Bordini, Bernardo, additional, Bottura, Luca, additional, Bermudez, Susana Izquierdo, additional, Loffler, Christian H., additional, Gomez, Jose V. Lorenzo, additional, Savary, Frederic, additional, and Probst, Matthias, additional

Published

2018

44. Hi-Lumi LHC Twin Aperture Orbit Correctors 0.5-m Model Magnet Development and Cold Test

Author

Kirby, Glyn A., primary, Gentini, Luca, additional, Mazet, Jacky, additional, Mentink, Matthias, additional, Mangiarotti, Franco, additional, Van Nugteren, Jeroen, additional, Murtomaki, Jaakko Samuel, additional, Hagen, Per, additional, Pincot, Francois Olivier, additional, Bourcey, Nicolas, additional, Perez, Juan Carlos, additional, De Rijk, Gijs, additional, Todesco, Ezio, additional, and Rysti, J., additional

Published

2018

45. Quench Behavior of the HL-LHC Twin Aperture Orbit Correctors

Author

Mentink, Matthias, primary, van Nugteren, Jeroen, additional, Mangiarotti, Franco, additional, Duda, Michal, additional, and Kirby, Glyn, additional

Published

2018

46. Comparison of Cold Powering Performance of 2-m-Long Nb3Sn 11 T Model Magnets

Author

Willering, Gerard, primary, Bajko, Marta, additional, Bajas, Hugues, additional, Bordini, Bernardo, additional, Bottura, Luca, additional, Feuvrier, Jerome, additional, Fiscarelli, Lucio, additional, Izquierdo Bermudez, Susana, additional, Loffler, Christian, additional, Mangiarotti, Franco, additional, Nilsson, Emelie, additional, Perez, Juan-Carlos, additional, de Rijk, Gijs, additional, and Savary, Frederic, additional

Published

2018

47. ARC: A compact, high-field, fusion nuclear science facility and demonstration power plant with demountable magnets

Author

Massachusetts Institute of Technology. Department of Mechanical Engineering, Massachusetts Institute of Technology. Department of Nuclear Science and Engineering, Massachusetts Institute of Technology. Plasma Science and Fusion Center, Sorbom, Brandon Nils, Ball, Justin Richard, Palmer, Timothy R., Mangiarotti, Franco Julio, Sierchio, Jennifer M., Bonoli, Paul T, Kasten, Cale, Sutherland, Derek A., Barnard, Harold Salvadore, Haakonsen, Christian Bernt, Goh, Jonathan Yanming, Sung, Choongki, Whyte, Dennis G, Bonoli, Paul T., Massachusetts Institute of Technology. Department of Mechanical Engineering, Massachusetts Institute of Technology. Department of Nuclear Science and Engineering, Massachusetts Institute of Technology. Plasma Science and Fusion Center, Sorbom, Brandon Nils, Ball, Justin Richard, Palmer, Timothy R., Mangiarotti, Franco Julio, Sierchio, Jennifer M., Bonoli, Paul T, Kasten, Cale, Sutherland, Derek A., Barnard, Harold Salvadore, Haakonsen, Christian Bernt, Goh, Jonathan Yanming, Sung, Choongki, Whyte, Dennis G, and Bonoli, Paul T.

Abstract

The affordable, robust, compact (ARC) reactor is the product of a conceptual design study aimed at reducing the size, cost, and complexity of a combined fusion nuclear science facility (FNSF) and demonstration fusion Pilot power plant. ARC is a ∼200–250 MWe tokamak reactor with a major radius of 3.3 m, a minor radius of 1.1 m, and an on-axis magnetic field of 9.2 T. ARC has rare earth barium copper oxide (REBCO) superconducting toroidal field coils, which have joints to enable disassembly. This allows the vacuum vessel to be replaced quickly, mitigating first wall survivability concerns, and permits a single device to test many vacuum vessel designs and divertor materials. The design point has a plasma fusion gain of Q[subscript p] ≈ 13.6, yet is fully non-inductive, with a modest bootstrap fraction of only ∼63%. Thus ARC offers a high power gain with relatively large external control of the current profile. This highly attractive combination is enabled by the ∼23 T peak field on coil achievable with newly available REBCO superconductor technology. External current drive is provided by two innovative inboard RF launchers using 25 MW of lower hybrid and 13.6 MW of ion cyclotron fast wave power. The resulting efficient current drive provides a robust, steady state core plasma far from disruptive limits. ARC uses an all-liquid blanket, consisting of low pressure, slowly flowing fluorine lithium beryllium (FLiBe) molten salt. The liquid blanket is low-risk technology and provides effective neutron moderation and shielding, excellent heat removal, and a tritium breeding ratio ≥ 1.1. The large temperature range over which FLiBe is liquid permits an output blanket temperature of 900 K, single phase fluid cooling, and a high efficiency helium Brayton cycle, which allows for net electricity generation when operating ARC as a Pilot power plant., United States. Department of Energy (Grant DE-FG02-94ER54235), United States. Department of Energy (Grant DE-SC008435), United States. Department of Energy. Office of Fusion Energy Sciences (Grant DE-FC02-93ER54186), National Science Foundation (U.S.) (Grant 1122374)

Published

2017

48. Design of demountable toroidal field coils with REBCO superconductors for a fusion reactor

Author

Joseph V. Minervini., Massachusetts Institute of Technology. Department of Nuclear Science and Engineering., Mangiarotti, Franco Julio, Joseph V. Minervini., Massachusetts Institute of Technology. Department of Nuclear Science and Engineering., and Mangiarotti, Franco Julio

Abstract

Thesis: Ph. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, 2016., This electronic version was submitted by the student author. The certified thesis is available in the Institute Archives and Special Collections., Cataloged from student-submitted PDF version of thesis., Includes bibliographical references (pages 139-145)., The recent development of REBCO superconducting tapes, cabling methods and joint concepts could be a revolutionary development for magnetic fusion. REBCO has significantly better performance at high magnetic fields than traditional low temperature superconductors (LTS), and can be operated at a higher temperature than LTS for reduced thermodynamic cost of cooling. Use of REBCO superconductors in the magnet systems of tokamaks allows building demountable toroidal field (TF) coils, greatly simplifying reactor construction and maintenance. A demountable TF coil system with REBCO superconductors for a fusion reactor has been conceptually designed. The coil system operates at 20 K, with a maximum magnetic field of 20 T. The magnets are divided into two coil segments and can be detached and remounted to allow the internal components of the reactor to be removed vertically as one piece. Operating at 20 T and 20 K, the stress in most of the coils is acceptable (less than 2/3 the yield strength and less than 1/2 the ultimate tensile strength of the structural materials). The strain in the superconductors is lower than the reversible degradation limit. The electrical resistance in each conductor joint is 10 n [Omega]. The total heat generation in the reactor superconducting TF magnets is approximately 1.9 MW, of which about 25 % is nuclear heating and 75 % joint heating. 71 MW of electricity are required for cooling the coils at 20 K, about 7 % of the electric energy the reactor generates. The expected time to warm-up the magnets from the operation temperature to room temperature is 7 days, and approximately the same for cool-down back to the operation temperature. The analysis of the conceptual magnet design is encouraging, as no insuperable problems have been identified. This conceptual design can be used as a starting point for a full engineering design of demountable fusion reactors magnets., by Franco Julio Mangiarotti., Ph. D.

Published

2016

49. Comparison of Cold Powering Performance of 2-m-Long Nb3Sn 11 T Model Magnets.

Author

Willering, Gerard, Bajko, Marta, Bajas, Hugues, Bordini, Bernardo, Bottura, Luca, Feuvrier, Jerome, Fiscarelli, Lucio, Bermudez, Susana Izquierdo, Löffler, Christian, Mangiarotti, Franco, Nilsson, Emelie, Perez, Juan-Carlos, Rijk, Gijs de, and Savary, Frederic

Subjects

MAGNETS, CURRENT density (Electromagnetism), MECHANICAL properties of metals, APERTURE-coupled microstrip antennas, ELECTROMAGNETIC fields

Abstract

For the upgrade of the LHC, two 15-m NbTi main dipole magnets are foreseen to be replaced by two 11 T 5.7-m-long Nb3Sn dipoles each. A series of model magnets has been produced to verify the design choices that are important for the prototype and series production, focusing on mechanical aspects and protection studies. A fourth and a fifth 2-m single aperture models were produced, assembled, and tested. In this paper, the cold powering tests of the single aperture models SP104 and SP105 will be presented and the results will be compared with the previous models. Special attention will be given to the upper limit in magnet current due to quenches in the midplane turns. [ABSTRACT FROM AUTHOR]

Published

2018

50. Advances on the Design of Demountable Toroidal Field Coils With REBCO Superconductors for an ARIES-I Class Fusion Reactor

Author

Mangiarotti, Franco J., primary and Minervini, Joseph V., additional

Published

2015