Explore the words cloud of the SuperCoop project. It provides you a very rough idea of what is the project "SuperCoop" about.
The following table provides information about the project.
SCUOLA INTERNAZIONALE SUPERIORE DI STUDI AVANZATI DI TRIESTE
|Coordinator Country||Italy [IT]|
|Total cost||209˙686 €|
|EC max contribution||209˙686 € (100%)|
1. H2020-EU.1.3.2. (Nurturing excellence by means of cross-border and cross-sector mobility)
|Duration (year-month-day)||from 2019-09-01 to 2022-02-28|
Take a look of project's partnership.
|1||SCUOLA INTERNAZIONALE SUPERIORE DI STUDI AVANZATI DI TRIESTE||IT (TRIESTE)||coordinator||209˙686.00|
|2||UNIVERSITY OF FLORIDA||US (GAINESVILLE)||partner||0.00|
The understanding of optimal conditions giving rise to high temperature superconductivity is still a crucial challenge of condensed matter theory and the last obstacle for an effective design and exploitation of superconductors. In particular, the relationship between electronic correlations and superconductivity is still a puzzle: naively expected to always be “foes”, they appear more as “friends” in high temperature superconductors, where superconductivity usually emerges either from a doped Mott insulator or from an incoherent metal characterized by strong electronic correlations. In the last decade, the appearance of iron-based superconductors triggered the development of new ideas and theoretical tools, which allow us today to originally approach and solve the puzzle of the relationship between electronic correlations and high temperature superconductivity. SuperCoop introduces and develops a scenario in which the key ingredient for superconductivity comes from a novel cooperative interplay between electronic correlations and magnetic interactions. Within SuperCoop we will develop efficient methods to describe the incoherent metallic phase of iron-based materials from which superconductivity emerges and to analyze the role of correlations effects on the pairing mediated by magnetic degrees of freedom. We will address questions that are at the forefront of the unconventional superconductivity field, including why the critical temperature of the chalcogenide systems are the highest among the iron-based materials. SuperCoop will provide the ER with the opportunity to access world-class research institutes in US and EU to follow the training program needed for the development of the project. SuperCoop will enhance the ER scientific network and strengthen the leadership skills necessary to actively promote future collaborations between the host institutions and to establish a successful career in EU as a leader in the field.
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The information about "SUPERCOOP" are provided by the European Opendata Portal: CORDIS opendata.
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