Bajas temperaturas de la URJC (GBT) gefesrse2023-02-16T10:49:15+01:00Etiquetas: Electronic properties of superconductors, experiment, Experiment. Fundamental Science, Madrid, Mesoscopic superconductivity, superfluids, theory, Universidad Rey Juan Carlos, vórtices|
Theory of Quantum Materials and Solid State Quantum Technologies Leni Bascones2020-02-12T22:39:28+01:00Etiquetas: Electronic properties of superconductors, Fundamental Science, Mechanisms of superconductivity, Mesoscopic superconductivity, Superconducting materials and devices for quantum technologies, Superconductivity in 2D materials, theory, Topological superconductivity|
Quantum Transport Laboratory Leni Bascones2020-02-12T22:37:57+01:00Etiquetas: experiment, Fundamental Science, Mesoscopic superconductivity, Superconducting materials and devices for quantum technologies, Superconductivity in 2D materials, Topological superconductivity|
Quantum Optics Theory ICFO Leni Bascones2020-02-12T22:27:45+01:00Etiquetas: Electronic properties of superconductors, Fundamental Science, Mechanisms of superconductivity, Mesoscopic superconductivity, Superconducting materials and devices for quantum technologies, Superconductivity in 2D materials, Superconductivity simulators with atomic molecular and photonic systems, theory, Topological superconductivity, vórtices|
Madrid Quantum Transport Leni Bascones2020-02-12T22:26:48+01:00Etiquetas: Electronic properties of superconductors, Fundamental Science, Mesoscopic superconductivity, Superconducting heterostructures, Superconducting materials and devices for quantum technologies, Superconductivity in 2D materials, theory, Topological superconductivity|
NANOMIDAS Leni Bascones2020-02-12T22:25:46+01:00Etiquetas: experiment, Fundamental Science, Mesoscopic superconductivity, Superconducting materials and devices for quantum technologies, Synthesis of superconducting materials, Topological superconductivity, vórtices|
FISNANO Leni Bascones2020-02-12T22:23:58+01:00Etiquetas: Applied Science, Fundamental Science, Mesoscopic superconductivity, Superconducting heterostructures, Superconducting materials and devices for quantum technologies, Superconductivity in 2D materials, theory, Topological superconductivity|
Quantum Materials and Photonics Group (QMatterPhotonics) Leni Bascones2020-02-12T22:22:56+01:00Etiquetas: Applied Science, Electronic properties of superconductors, experiment, Fundamental Science, Mechanisms of superconductivity, Mesoscopic superconductivity, Superconducting materials and devices for detectors, Superconducting materials and devices for quantum technologies, Superconductivity in 2D materials, Synthesis of superconducting materials, theory, vórtices|
Laboratorio de Bajas Temperaturas y Altos Campos Magnéticos Leni Bascones2020-02-25T10:55:11+01:00Etiquetas: Applied Science, Electronic properties of superconductors, experiment, Fundamental Science, Mechanisms of superconductivity, Mesoscopic superconductivity, Superconducting materials and devices for quantum technologies, Superconductivity in 2D materials, Synthesis of superconducting materials, Topological superconductivity, vórtices|
Mesoscopic Physics Group Leni Bascones2020-02-12T22:04:36+01:00Etiquetas: Applied Science, Fundamental Science, Mesoscopic superconductivity, Superconducting heterostructures, Superconducting materials and devices for detectors, Superconducting materials and devices for quantum technologies, Superconductivity in 2D materials, theory|
