Spain

Institutes

  • CDTI, Madrid  
    • Memorandum of Understanding signed on 26 March 2019
    • Addendum signed on 26 March 2019
      • The objective of the work is to develop the manufacturing infrastructure and a team of qualified personnel, capable of building high-field dipole magnet demonstrators and models. The readiness of the infrastructure and personnel will be demonstrated by building and assembling NbgSn coils for L6T short demonstrators and short dipole models of up to 2m length.
  • CELLS/ALBA, Cerdanyola del Vallès
    • Memorandum of Understanding signed on 02 September 2014
    • Addendum signed on 20 February 2017
      • The scope of this collaboration is to obtain physical results to evaluate the use of Coated Conductors (CC) tapes as elements for the FCC-hh beam screen based on its expected low surface impedance and high superconducting properties. Knowledge will be generated on the surface impedance of high temperature superconducting-CC irradiated by RF and synchrotron light at high fields, and intermediate temperatures (40-60 K) at the light source. This work is part of a consortium project association between Instituto de Ciencia de Materiales de Barcelona-CSIC, Institut de Fisica d'Altes Energies, ALBA Synchrotron Light Source and CERN.
    • Addendum signed on 18 January 2019
      • This study will look to use near field speckles as an alternative to traditional interferometry using slits, promising a simpler and more robust measurement. As part of this collaboration ALBA will coordinate the test to be performed at ALBA of the X-ray Heterodyne Near Field Speckles (HNFS) technique for the measurement of the transverse beam profile.
    • Addendum signed on 13 November 2020
      • The scope of this collaboration is to evaluate the viability of Coated Conductors (CC) tapes as elements for the beam screen of FCC-hh based on the results obtained in the previous phase (Addendum signed on 20 February 2017). Knowledge will be generated on the surface impedance of High Temperature Superconducting-CC irradiated by RF and synchrotron light at conditions close to FCC requirements, up to 16 T and 1 GHz. This work is a continuation of the project association between Instituto de Ciencia de Materiales de Barcelona-CSIC, Institut de Física d’Altes Energies, ALBA Synchrotron Light source, Universitat Politècnica de Catalunya and CERN.
  • CIEMAT, Madrid
    • Memorandum of Understanding signed on 22 September 2014
    • Addendum signed on 26 August 2014
      • The scope of this collaboration is to make a conceptual design for cryogenic beam vacuum system and a high-field accelerator magnet mechanical and electromagnetic design.
    • Addendum signed on 26 March 2019
      • The objective of the work is to develop the manufacturing infrastructure and a team of qualified personnel, capable of building high-field dipole magnet demonstrators and models. The readiness of the infrastructure and personnel will be demonstrated by building and assembling NbgSn coils for L6T short demonstrators and short dipole models of up to 2m length.
  • CSIC, Madrid
  • ICMAB/CSIC, Bellaterra (Barcelona)
    • Memorandum of Understanding signed on 03 May 2016
    • Addendum signed on 27 November 2020
      • The scope of this collaboration is to evaluate the viability of Coated Conductors (CC) tapes as elements for the beam screen of FCC-hh based on the results obtained in the previous phase (Addendum signed by CELLS/ALBA on 20 February 2020). Knowledge will be generated on the surface impedance of High Temperature Superconducting-CC irradiated by RF and synchrotron light at conditions close to FCC requirments, up to 16 T and 1 GHz. This work is a continuation of the consortium project association between Instituto de Ciencia de Materiales de Barcelona-CSIC, Institut de Física d’Altes Energies, ALBA Synchrotron Light source, Universitat Politècnica de Catalunya and CERN .
  • IFAE, Bellaterra (Barcelona)
    • Memorandum of Understanding signed on 03 May 2016
    • Addendum signed on 23 January 2017
      • The scope of this collaboration is to obtain physical results to evaluate the use of Coated Conductors (CC) tapes as elements for the FCC-hh beam screen based on its expected low surface impedance and high superconducting properties. Knowledge will be generated on the surface impedance of high temperature superconducting-CC irradiated by RF and synchrotron light at high fields, and intermediate temperatures (40-60 K) at the light source. This work is part of a consortium project association between Instituto de Ciencia de Materiales de Barcelona-CSIC, Institut de Fisica d'Altes Energies, ALBA Synchrotron Light Source and CERN.
    • Addendum signed on 27 November 2020
      • The scope of this collaboration is to evaluate the viability of Coated Conductors (CC) tapes as elements for the beam screen of FCC-hh based on the results obtained in the previous phase (Addendum signed on 23 January 2020). Knowledge will be generated on the surface impedance of High Temperature Superconducting-CC irradiated by RF and synchrotron light at conditions close to FCC requirments, up to 16 T and 1 GHz. This work is a continuation of the consortium project association between Instituto de Ciencia de Materiales de Barcelona-CSIC, Institut de Física d’Altes Energies, ALBA Synchrotron Light source, Universitat Politècnica de Catalunya and CERN .
  • IFIC CSIC-UV, Paterna
  • UPC, Barcelona
    • Memorandum of Understanding signed on 07 August 2017
    • Addendum signed on 16 October 2018
      • The scope of this collaboration is to develop and adapt existing methods to measure surface reactance and penetration depth of superconducting materials to the specific requirements of Coated Conductor (CC) tapes. In addition, the institute will also develop test setups to perform surface impedance and penetration depth measurements at high fields, intermediate temperatures (40-60 K) and synchrotron light at ICMAB and ALBA premises.This work is part of a consortium project association between Instituto de Ciencia de Materiales de Barcelona-CSIC, Institut de Fisica d'Altes Energies, ALBA Synchrotron Light Source, Universitat Politècnica de Catalunya and CERN.
    • Addendum signed on 22 December 2020
      • The scope of this collaboration is to evaluate the viability of Coated Conductors (CC) tapes as elements for the beam screen of FCC-hh based on the results obtained in the previous phase (Addendum signed on 23 January 2020). Knowledge will be generated on the surface impedance of High Temperature Superconducting-CC irradiated by RF and synchrotron light at conditions close to FCC requirments, up to 16 T and 1 GHz. This work is a continuation of the consortium project association between Instituto de Ciencia de Materiales de Barcelona-CSIC, Institut de Física d’Altes Energies, ALBA Synchrotron Light source, Universitat Politècnica de Catalunya and CERN .
  • URJC, Madrid
  • USC, Santiago de Compostela
    • Memorandum of Understanding signed on 24 April 2019
    • Addendum signed on 06 June 2021
      • The scope of this collaboration is to carry out a report on the results of the socio‐economic impact analysis concerning the topic of ICT, open software and data. The report will include recommendations for ensuring good impact generation of the H2020 FCCIS and EU territorial cooperation programmes such as “smart specialisation”.

 

Find more about Spain's relationship with CERN here.