Your search keyword '"Tommasini, Davide"' showing total 29 results

1. Status of the 16 T Dipole Development Program for a Future Hadron Collider

Author

Tommasini, Davide, Bermudez, Susana Izquierdo, Bordini, Bernardo, Bottura, Luca, Brower, Lucas, Buzio, Marco, Caiffi, Barbara, Caspi, Shlomo, Dhalle, Marc, Durante, Maria, deRijk, Gijs, Arbelaez, Diego, Fabbricatore, Pasquale, Farinon, Stefania, Ferracin, Paolo, Gao, Peng, Gourlay, Steve, Juchno, Mariusz, Kashikhin, Vadim, Lackner, Friedrich, Lorin, Clement, Marchevsky, Maxim, Auchmann, Bernhard, Marinozzi, Vittorio, Martinez, Teresa, Munilla, Javier, Novitski, Igor, Ogitsu, Toru, Ortwein, Rafal, Perez, Juan Carlos, Petrone, Carlo, Prestemon, Soren, Prioli, Marco, Bajas, Hugues, Rifflet, Jean-Michel, Rochepault, Etienne, Russenschuck, Stephan, Salmi, Tiina, Savary, Frederic, Schoerling, Daniel, Segreti, Michel, Senatore, Carmine, Sorbi, Massimo, Stenvall, Antti, Bajko, Marta, Todesco, Ezio, Toral, Fernando, Verweij, Arjan P, Wessel, Sander, Wolf, Felix, Zlobin, Alexander V, Ballarino, Amalia, Barzi, Emanuela, Bellomo, Giovanni, and Benedikt, Michael

Subjects

Nuclear and Plasma Physics, Particle and High Energy Physics, Physical Sciences, Affordable and Clean Energy, Future circular collider, superconducting, Nb3Sn, T, Condensed Matter Physics, Electrical and Electronic Engineering, Materials Engineering, General Physics, Electrical engineering, Condensed matter physics

Abstract

A next step of energy increase of hadron colliders beyond the LHC requires high-field superconducting magnets capable of providing a dipolar field in the range of 16 T in a 50-mm aperture with accelerator quality. These characteristics could meet the requirements for an upgrade of the LHC to twice the present beam energy or for a 100-TeV center of mass energy future circular collider. This paper summarizes the activities and plans for the development of these magnets, in particular within the 16 T Magnet Technology Program, the WP5 of the EuroCirCol, and the U.S. Magnet Development Program.

Published

2018

2. 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

3. Design of a Beam Separator for FLASH Electron Therapy Facilities

Author

Korchevnyuk, Vera, Bauche, Jeremie, Karppinen, Mikko, Latina, Andrea, Russenschuck, Stephan, Seidel, Mike, and Tommasini, Davide

Abstract

A promising modality of radiation therapy is FLASH: a technique in which the full radiation dose is delivered in just 1/10th of a second. This modality has been proven successful in destroying cancerous cells while sparing healthy tissues. The aim is to develop an accelerator to treat large-volume and deep-seated tumors using high-energy electron beams in the FLASH modality. Specifically, we are designing a steady-state magnet that guides three distinct energy beams into three separate beamlines and ensures dose conformality within FLASH timescales. This paper presents a design method that incorporates beam optics and magnetic parameters into a numerical optimization process. The method is applied to the design of a magnetic spectrometer with a varying pole profile. The magnet performance is compared to pure dipole and combined dipole-quadrupole designs.

Published

2024

4. Assembly and test results of the RMM1a,b magnet, a CERN technology demonstrator towards Nb3Sn ultimate performance

Author

Gautheron, Emma, primary, Bordini, Bernardo, additional, Campagna, Guillaume, additional, Felice, Hélène, additional, Fleiter, Jerome, additional, Guinchard, Michael, additional, Bermudez, Susana Izquierdo, additional, Mugnier, Sylvain, additional, Perez, Juan Carlos, additional, Petrone, Carlo, additional, Tommasini, Davide, additional, and Willering, Gerard, additional

Published

2023

5. Design of a Beam Separator for FLASH Electron Therapy Facilities

Author

Korchevnyuk, Vera, primary, Bauche, Jérémie, additional, Karppinen, Mikko, additional, Latina, Andrea, additional, Russenschuck, Stephan, additional, Seidel, Mike, additional, and Tommasini, Davide, additional

Published

2023

6. Assembly and Test Results of the RMM1a,b Magnet, a CERN Technology Demonstrator Towards Nb3Sn Ultimate Performance

Author

Gautheron, Emma, Bordini, Bernardo, Campagna, Guillaume, Felice, Helene, Fleiter, Jerome, Guinchard, Michael, Izquierdo Bermudez, Susana, Mugnier, Sylvain, Perez, Juan Carlos, Petrone, Carlo, Tommasini, Davide, and Willering, Gerard

Abstract

As part of the High Field Magnet technology development carried out at CERN, demonstrators are under construction to explore the full potential of Nb3Sn. The Racetrack Model Magnet (RMM) is one of them, building upon the successful Enhanced Racetrack Model Coil (eRMC) eRMC1a magnet which reached 16.5 T peak field or 16.3 T bore field at 1.9 K. The RMM1a,b magnet is composed of the same two previously tested eRMC racetrack-type coils and an additional middle RMM coil. This central racetrack-type coil features a closed cavity with a diameter of 50 mm and a total length of 526 mm. The coil pack is assembled in the same shell-based support structure as eRMC1a, using bladders and keys to allow for a precise control of the preload with minimal spring back and conductor overstress. The magnet was preloaded with a conservative approach limiting the equivalent peak stress in the coil blocks below 150 MPa. It was then successfully tested up to 16.7 T peak field or 16.5 T bore field at 1.9 K. This paper describes the assembly of the RMM1a,b magnet, relying on Finite Element Analysis (FEA) and mechanical instrumentation, as well as the powering test results at 4.2 K and 1.9 K.

Published

2023

7. Preliminary study of 4 T superconducting dipoles for a light rotating gantry for ion-therapy

Author

Rossi, Lucio, primary, Benedetto, Elena, additional, De Matteis, Ernesto, additional, Farinon, Stefania, additional, Felcini, Enrico, additional, Karppinen, Mikko, additional, Mariotto, Samuele, additional, Musenich, Riccardo, additional, Perini, Diego, additional, Prioli, Marco, additional, Pullia, Marco, additional, Sorbi, Massimo, additional, Statera, Marco, additional, Tommasini, Davide, additional, and Valente, Riccardo Umberto, additional

Published

2022

8. Cable insulation scheme to improve heat transfer to superfluid helium in Nb-Ti accelerator magnets

Author

La China, Marco and Tommasini, Davide

Subjects

Niobium -- Magnetic properties, Niobium -- Thermal properties, Polyimides -- Thermal properties, Titanium -- Magnetic properties, Titanium -- Thermal properties, Business, Electronics, Electronics and electrical industries

Abstract

A new all-polyimide insulation scheme is designed to increase heat transfer in Nb-Ti magnets. Model-based comparison with state-of-the-art insulation has shown a factor of ten improvement in heat transfer when compared to the LHC type scheme.

Published

2008

9. FCC-hh Conceptual Designs and Windability of the Main Quadrupoles

Author

Genot, Clement, primary, Lorin, Clement, additional, Minier, Gilles, additional, Pepinter, Edouard, additional, Rabti, Yosri, additional, Rochepault, Etienne, additional, Salmi, Tiina, additional, Schoerling, Daniel, additional, and Tommasini, Davide, additional

Published

2021

10. Reassembly and Test of High-Field Nb3Sn Dipole Demonstrator MDPCT1

Author

Zlobin, Alexander, primary, Novitski, Igor, additional, Barzi, Emanuela, additional, Baldini, Maria, additional, Carmichael, Justin, additional, Caspi, Shlomo, additional, Kashikhin, Vadim, additional, Krave, Steven T., additional, Orozco, Charles, additional, Schoerling, Daniel, additional, Stoynev, Stoyan Emilov, additional, Tommasini, Davide, additional, and Turrioni, Daniele, additional

Published

2021

11. Thermomechanical properties of the coil of the superconducting magnets for the Large Hadron Collider

Author

Couturier, Karine, Ferracin, Paolo, Scandale, Walter, Todesco, Ezio, and Tommasini, Davide

Subjects

Superconducting magnets -- Research, Electrical equipment and supplies industry -- Research, Strains and stresses -- Research, Particle accelerators -- Research, Nuclear industry -- Research, Industrial equipment and supplies industry -- Research, Electrical engineering, Business, Electronics, Electronics and electrical industries

Abstract

Results are reported of measurements of the thermomechanical properties of rectangular stacks of insulated cables of the dipole of CERN's Large Hadron Collider (LHC).

Published

2002

12. Mechanical Tests, Analysis, and Validation of the Support Structure of the eRMC and RMM Magnets of the FCC R&D at CERN

Author

Perez, Manuel Garcia, primary, Bermudez, Susana Izquierdo, additional, Perez, Juan Carlos, additional, Bourcey, Nicolas, additional, Grosclaude, Philippe, additional, Guinchard, Michael, additional, Tommasini, Davide, additional, Naini, Sohrab Emami, additional, and Troitino, Salvador Ferradas, additional

Published

2020

13. Development and First Test of the 15 T Nb3Sn Dipole Demonstrator MDPCT1

Author

Zlobin, Alexander V., primary, Novitski, Igor, additional, Barzi, Emanuela, additional, Kashikhin, Vadim V., additional, Carmichael, Justin, additional, Caspi, Shlomo, additional, Chlachidze, Guram, additional, Krave, Steven, additional, Orozco, Charles, additional, Schoerling, Daniel, additional, Stoynev, Stoyan, additional, Tommasini, Davide, additional, and Turrioni, Daniele, additional

Published

2020

14. Localization of electrical insulation failures in superconducting collared coils by analysis of the distortion of a pulsed magnetic field

Author

Komorowski, Piotr and Tommasini, Davide

Subjects

Magnetic fields -- Research, Superconducting magnets -- Research, Business, Electronics, Electronics and electrical industries

Abstract

The distortion of a pulsed magnetic field is used to analyze electrical insulation failures in superconducting collared coils.

Published

2000

15. Length Changes of Unconfined Nb3Sn Rutherford Cables During Reaction Heat Treatment

Author

Michels, Matthias, primary, Lackner, Friedrich, additional, Scheuerlein, Christian, additional, Carlon Zurita, Alejandro, additional, Ferradas Troitino, Salvador, additional, Bourcey, Nicolas, additional, Savary, Frederic, additional, and Tommasini, Davide, additional

Published

2019

16. Effect of Epoxy Volume Fraction on the Stiffness of Nb3Sn Rutherford Cable Stacks

Author

Wolf, Felix, primary, Lackner, Friedrich, additional, Hofmann, Michael, additional, Scheuerlein, Christian, additional, Schoerling, Daniel, additional, and Tommasini, Davide, additional

Published

2019

17. The CERN FCC Conductor Development Program: A Worldwide Effort for the Future Generation of High-Field Magnets

Author

Ballarino, Amalia, primary, Hopkins, Simon C., additional, Bordini, Bernardo, additional, Richter, David, additional, Tommasini, Davide, additional, Bottura, Luca, additional, Benedikt, Michael, additional, Sugano, Michinaka, additional, Ogitsu, Toru, additional, Kawashima, Shinya, additional, Saito, Kazuyoshi, additional, Fukumoto, Yoshito, additional, Sakamoto, Hisaki, additional, Shimizu, Hitoshi, additional, Pantsyrny, Victor, additional, Abdyukhanov, Ildar, additional, Shlyakov, Michael, additional, Zernov, Sergey, additional, Buta, Florin, additional, Senatore, Carmine, additional, Shin, Iksang, additional, Kim, Jimam, additional, Lachmann, Jonas, additional, Leineweber, Andreas, additional, Pfeiffer, Stephan, additional, Baumgartner, Thomas, additional, Eisterer, Michael, additional, Bernardi, Johannes, additional, Malagoli, Andrea, additional, Braccini, Valeria, additional, Vignolo, Maurizio, additional, Putti, Marina, additional, and Ferdeghini, Carlo, additional

Published

2019

18. Effect of Applied Compressive Stress and Impregnation Material on Internal Strain and Stress State in Nb3Sn Rutherford Cable Stacks

Author

Wolf, Felix, primary, Scheuerlein, Christian, additional, Lorentzon, Marcus, additional, Katzer, Balduin, additional, Hofmann, Michael, additional, Gan, Weimin, additional, Lackner, Friedrich, additional, Schoerling, Daniel, additional, Tommasini, Davide, additional, Savary, Frederic, additional, and Bottura, Luca, additional

Published

2019

19. 3-D Magnetic and Mechanical Design of Coil Ends for the Racetrack Model Magnet RMM

Author

Rochepault, Etienne, primary, Izquierdo Bermudez, Susana, additional, Perez, Juan Carlos, additional, Schoerling, Daniel, additional, and Tommasini, Davide, additional

Published

2018

20. FEA Model and Mechanical Analysis of the Nb3Sn 15-T Dipole Demonstrator

Author

Kokkinos, Charilaos, primary, Apostolidis, I., additional, Carmichael, Justin, additional, Gortsas, Theodore, additional, Kokkinos, Sotiris, additional, Loukas, Konstantinos, additional, Novitski, Igor, additional, Polyzos, Demosthenes, additional, Rodopoulos, Dimitris, additional, Schoerling, Daniel, additional, Tommasini, Davide, additional, and Zlobin, Alexander V., additional

Published

2018

21. Training Behavior of the Main Dipoles in the Large Hadron Collider

Author

Todesco, Ezio, primary, Auchmann, Bernhard, additional, Bajko, Marta, additional, Bottura, Luca, additional, Bruning, Oliver, additional, De Rijk, Gijs, additional, Fessia, Paolo, additional, Hagen, Per, additional, Naour, Sandrine Le, additional, Modena, Michele, additional, Perez, Juan Carlos, additional, Rossi, Lucio, additional, Schmidt, Rudiger, additional, Siemko, Andrzej, additional, Tock, Jean-Philippe, additional, Tommasini, Davide, additional, Verweij, Arjan, additional, and Willering, Gerard, additional

Published

2017

22. Considerations on a Cost Model for High-Field Dipole Arc Magnets for FCC

Author

Schoerling, Daniel, primary, Durante, Maria, additional, Lorin, Clement, additional, Martinez, Teresa, additional, Ruuskanen, Janne, additional, Salmi, Tiina, additional, Sorbi, Massimo, additional, Tommasini, Davide, additional, and Toral, Fernando, additional

Published

2017

23. Testing Mechanical Behavior of Nb3Sn Rutherford Cable During Coil Winding

Author

Pulikowski, Dariusz, primary, Lackner, Friedrich, additional, Scheuerlein, Christian, additional, Meinel, Dietmar, additional, Savary, Frederic, additional, Tommasini, Davide, additional, and Pajor, Miroslaw, additional

Published

2017

24. The 16 T Dipole Development Program for FCC

Author

Tommasini, Davide, primary, Auchmann, B., additional, Bajas, Hugues, additional, Bajko, Marta, additional, Ballarino, Amalia, additional, Bellomo, Giovanni, additional, Benedikt, Michael, additional, Bermudez, Susana Izquierdo, additional, Bordini, Bernardo, additional, Bottura, Luca, additional, Buzio, Marco, additional, Dhalle, Marc, additional, Durante, Maria, additional, de Rijk, Gijs, additional, Fabbricatore, Pasquale, additional, Farinon, Stefania, additional, Ferracin, Paolo, additional, Gao, Peng, additional, Lackner, Friedrich, additional, Lorin, Clement, additional, Marinozzi, Vittorio, additional, Martinez, Teresa, additional, Munilla, J., additional, Ogitsu, Toru, additional, Ortwein, Rafal, additional, Perez, Juan, additional, Prioli, M., additional, Rifflet, Jean-Michel, additional, Rochepault, Etienne, additional, Russenschuck, Stephan, additional, Salmi, Tiina, additional, Savary, Frederic, additional, Schoerling, Daniel, additional, Segreti, Michel, additional, Senatore, Carmine, additional, Sorbi, Massimo, additional, Stenvall, Antti, additional, Todesco, Ezio, additional, Toral, Fernando, additional, Verweij, Arjan P., additional, Volpini, Giovanni, additional, Wessel, Sander, additional, and Wolf, Felix, additional

Published

2017

25. FEA Model and Mechanical Analysis of the Nb3Sn 15-T Dipole Demonstrator.

Author

Kokkinos, Charilaos, Apostolidis, I., Carmichael, Justin, Gortsas, Theodore, Kokkinos, Sotiris, Loukas, Konstantinos, Novitski, Igor, Polyzos, Demosthenes, Rodopoulos, Dimitris, Schoerling, Daniel, Tommasini, Davide, and Zlobin, Alexander V.

Subjects

LARGE Hadron Collider, ACCELERATOR magnets, COILS (Magnetism), SENSITIVITY analysis, FINITE element method

Abstract

Nb3Sn magnets with a nominal operation field of ~15 T are being considered for the Large Hadron Collider (LHC) energy upgrade High-Energy Large Hadron Collider (HE-LHC) and a post-LHC future circular collider. To demonstrate the feasibility of 15-T accelerator quality dipole magnets, the U.S. magnet development program is developing a single-aperture 15-T Nb3Sn dipole demonstrator based on a 4-layer graded cos-theta coil with 60 mm aperture and cold iron yoke. The main design challenges for 15-T accelerator magnets include large Lorentz forces at this field level. To counteract them, an innovative mechanical structure based on a vertically split iron yoke, locked by large aluminum IC-clamps and supported by a thick stainless steel skin, has been developed at Fermilab. To study the performance of the structure, a parametric multiphysics finite element analysis (FEA) model has been set up. This paper describes the numerical model as well as the results of a sensitivity analysis of the effect of geometrical tolerances and assembly parameters. [ABSTRACT FROM AUTHOR]

Published

2018

26. Heat Transfer in an Enhanced Cable Insulation Scheme for the Superconducting Magnets of the LHC Luminosity Upgrade

Author

Granieri, Pier Paolo, primary, Fessia, Paolo, additional, Richter, David, additional, and Tommasini, Davide, additional

Published

2010

27. Electrical and Mechanical Performance of an Enhanced Cable Insulation Scheme for Superconducting Magnets

Author

Fessia, Paolo, primary, Granieri, Pier Paolo, additional, Luzieux, Sebastien, additional, Tommasini, Davide, additional, Gerardin, Alexandre, additional, Guinchard, Michael, additional, Regis, Federico, additional, Sgobba, Stefano, additional, and Zaghloul, Aziz, additional

Published

2010

28. Thermally Enhanced Cable Insulation for the Nb-Ti High Luminosity LHC Inner Triplet Model.

Author

Granieri, Pier Paolo, Fessia, Paolo, Richter, David, and Tommasini, Davide

Subjects

THERMAL insulation, LARGE Hadron Collider, ACCELERATOR magnets, MAGNETS, PROTOTYPES, MAGNETIC fields, CURRENT density (Electromagnetism), CABLES

Abstract

A new concept of polyimide electrical insulation for superconducting cables of accelerator magnets was developed in the last years. Its enhanced He II permeability allows a significant improvement of the heat extraction from the coil. This cable insulation concept is used for the quadrupole magnet prototype for the insertion region of the High Luminosity—Large Hadron Collider project. It aims at pushing the limits of the Nb-Ti technology to withstand high heat deposition. [ABSTRACT FROM PUBLISHER]

Published

2012

29. Design and Manufacture of a Hybrid Final Focus Quadrupole Model for CLIC.

Author

Vorozhtsov, Alexey, Modena, Michele, and Tommasini, Davide

Subjects

QUADRUPOLES, MAGNETS -- Design & construction, LINEAR accelerators, ELECTROMAGNETISM, PERMANENT magnets, ACCELERATOR magnets

Abstract

A tunable hybrid quadrupole magnet design has been proposed for the final focus in the Compact Linear Collider (CLIC) that is currently under study. The proposed design is a combination of an iron dominated electromagnetic quadrupole with a bore diameter of 8.25 mm with permanent magnet blocks placed between the poles made of soft magnetic CoFe alloy “Permendur”. The possibility of using Sm2Co17 and Nd2Fe14B as material for the permanent magnet blocks has been investigated. It is shown that a very high field gradient of 530 T/m (Sm2Co17) and 590 T/m (Nd2Fe14B) can be achieved. [ABSTRACT FROM PUBLISHER]

Published

2012