Scientific-Technical Areas
Thematic lines
In this line, components, instrumentation, and complete systems of superconducting accelerator magnets, electric machines, and particle accelerators are developed to contribute to new technological developments that address some of the challenges demanded by science (standard model), technology (energy storage and recovery), and society (nuclear medicine).
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Superconducting Magnets
Actividades PRISMAC 2025
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Superconducting Magnets
Desarrollo de una serie de imanes correctores tipo MCBXFA y MCBXFB para el HL-LHC
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Superconducting Magnets
Estudio ejecución futuros colisionadores circulares (FCC)
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Development of models, scenarios and analysis of sustainability of energy technologies and systems
Materials for Nuclear Energy
Particle Accelerators
Social research on sustainability, environmental and technological risks
Eurofusion under Horizon Europe
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Superconducting Magnets
Heavy Ion Therapy Research Integration plus
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High-Power Electric Drives
Marine Reciprocating Superconducting Generator (RSG)
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Particle Accelerators
Optimización de fuentes de iones para aceleradores con aplicaciones médicas
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High-Power Electric Drives
POwer StoragE In D OceaN
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Superconducting Magnets
Programa de Imanes Superconductores de Muy Alto Campo
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Ion source experimental laboratory
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Power System Laboratory
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Superconducting Magnet Research and Technology Laboratory (SMART-Lab)
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Superconducting magnets test laboratory
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FORM-036
Course on GAMOS/GEANT4 for medical physics and radiation protection simulations.
Course formed by a common theoretical module and a specialty to choose.
Course taught in English and Spanish.
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FORM-058
Advanced course on modeling and integration in network of energy storage
Course designed for a maximum of 12 students. It is recommended to have prior knowledge of energy storage technologies, Matlab-Simulink tool, electrical engineering and power electronics.