Magnetism and Spintronics

/Tag: Magnetism and Spintronics

2D Foundry, ICMM-CSIC

2017-11-02T22:36:57+02:00Tags: , , , , , , , , , |

Group type: Experiment Research description: The “2D-Foundry” is a research team of Instituto de Ciencia de Materiales de Madrid belonging to CSIC. The main mission of this Institute is to create new fundamental and applied knowledge in materials of high technological impact, their processing and their transfer to the productive sectors at local, national and

NanoImaging Group-CIC NanoGUNE

2019-09-24T16:18:32+02:00Tags: , , , , , , , , , , , , , , |

Group type:  Experiment Research description: The goal of our research is to elucidate the laws of magnetism, optics, and electronics at the scale of atoms and molecules. We use low-temperature Scanning-Probe Microscopy to study the basic quantum phenomena behind the macroscopic behavior of matter and to manipulate their basic atomic components. Our research lines study 

Physics of Nanosystems (FISNANO), IFISC (UIB-CSIC)

2016-06-16T08:07:59+02:00Tags: , , , , , , , , |

Group type: Theory Research description: Theory and models of quantum transport Structure and quantum correlations in nanosystems Spintronics Quantum thermoelectrics Keywords: Electronic transport and structure; Energy harvesting, storage and conversion; Low dimensional systems; Magnetism and Spintronics; Nanoelectronics; Strongly correlated systems. Affiliation: IFISC (UIB-CSIC), E-07122 Palma de Mallorca, Spain Contact: llorens.serra@uib.es, rosa.lopez-gonzalo@uib.es, david.sanchez@uib.es Group Members: http://www.uib.eu/en/research/groups/grup/FISNANO/equip/index.html Webpage:  

Theory of Quantum Materials and Solid State Quantum Technologies, ICMM-CSIC

2016-04-11T18:23:18+02:00Tags: , , , , , , , , , , |

Group type: Theory Research description: We investigate new properties of novel materials and nanostructures from a theoretical point of view: graphene, carbon nanotubes, nanowires, quantum dots and silicon nanoelectronics, topological insulators, superconductors and other strongly correlated systems. We describe materials and processes using model Hamiltonians, effective models, and ab-initio techniques. Both numerical and analytical approaches

Theory of Nanostructures, International Iberian Nanotechnology Laboratory (INL)

2016-03-31T08:35:17+02:00Tags: , , , , , , , , |

  Group type: Theory Research description: We are  condensed matter theorists fascinated with the electronic and spin properties of systems engineered with atomic scale precision. Our  motivation comes primarily from the curiosity to understand fundamental open questions of quantum mechanics and many body physics. As a bonus, this field of research holds the potential to provide solutions

Laboratory of Multifunctional Thin Films and Complex Structures (MULFOX), ICMAB-CSIC

2016-03-31T08:35:10+02:00Tags: , , , , , , , |

Group Type: Experimental Research description Oxides offer an extremely broad range of properties of major interest for science and technology. Magnetic data recording and sensing, ferroelectric data storage, piezoelectric actuators, energy harvesting in solar cells, catalysers, ionic conductors for fuel cells and superconductors for energy transport and storage are just few examples of some functional

Magnetic Materials Group – Universidade de Vigo

2016-03-31T08:35:05+02:00Tags: , , , , , , , |

Group type: Experimental Research description Our interests lie at the intersection of materials science, solid state physics and chemistry and colloidal chemistry. We are a cross-disciplinary, highly collaborative group focused on the use of wet-chemistry methods to grow crystalline nanoparticles, determine their composition and crystal structure, and characterize their magnetic properties. With the same methods

IMANA, ICMA-UNIZAR-CSIC; CUD; EUSS; Diamond Light Source; University of Cambridge; CNR-IOM

2016-03-31T08:34:58+02:00Tags: , , , , , , , , , , , , , , |

Group type: Experimental Research description: Synchrotron based spectroscopic techniques (X-ray Absortion, X-ray magnetic Circular Dichroism, X-ray Magnetic resonant Scattering) have reached their maturity in the study of magnetic materials. Because of their element selectivity and improved resolution they allow obtaining direct information on the electronic state and the atomic orbital and spinning moments of the