Objectives ELECSPIN project has just been accepted at the 2016 ANR call. This collaborative research project aims to investigate the advanced concept of radically new nanoelectronics devices based on the electric-field control of spin-based phenomena and establish proof of principle demonstrations of multi-terminal energy efficient memory nano devices.  The main  objectives are: To explore, understand and optimize the physical mechanisms of […]

SPINTEC has developed over the last decade many tools for integrating spintronic devices into standard CMOS microelectronics : design tools have been developed and elementary proofs of concept circuits have been built and tested. The integration of these elementary building blocks into more complex digital circuits at the IP or system level represents today a […]

Overview GREAT (European H2020 project) was accepted at the Summer 2015. Its kick-off meeting took place at SPINTEC in Grenoble on February 22nd-23rd 2016. The project aims at developing magnetic stacks able to equally perform memory, radio-frequency as well as sensor functionalities on the same chip, to address Internet of Things (IoT) applications. The main objectives of […]

A new research project has been accepted at the last FET H2020 call. The objective of SPICE is to realize a novel integration platform that combines photonic, magnetic and electronic components. Its validity will be shown by a conceptually new spintronic-photonic memory chip demonstrator with three orders of magnitude faster write speed and two orders […]

A CoFe based ferromagnetic alloy has been used in lateral spin valves to replace NiFe alloys, which are overwhelmingly exploited as ferromagnets electrodes in lateral spintronic devices. By using this second material, emitted signals are found to be one order of magnitude larger. In addition to using the electric charge of the electron, spintronic technologies […]

Bringing a ferromagnetic layer to resonance creates non-equilibrium magnetization dynamics which generates a spin current. The spin current propagates from the ferromagnet into a neighboring layer if permitted by the interface. This is equivalent to saying that the air-flow generated by rotating the blades of a fan can propagate in a neighboring room if the […]

Ces structures magnétiques nanométriques ont été observées à températures ambiante dans des matériaux compatibles avec l’industrie électronique. Ces résultats font sauter un verrou important quant à l’utilisation des skyrmions comme vecteur d’information à l’échelle nanométrique dans nos ordinateurs.

Jeudi 21 Janvier 2016 à 14H00, Phelma MINATEC – Amphithéâtre M001 (3 Parvis Louis Néel – 38016 Grenoble) Monsieur Antoine CHAVENT du DSM/INAC/SPINTEC soutiendra une thèse intitulée « Réduction du champ d’écriture de mémoires magnétiques à écriture assistée thermiquement à l’aide du couple de transfert de spin » Les mémoires magnétiques à accès aléatoire (MRAM) développées par […]

During writing of Thermally Assisted Switching Magnetic Random Access Memory (TAS-MRAM), the torque due to a voltage pulse may be used to help writing. As part of collaboration between Spintec and Crocus Technology, we brought out that most of the influence of the spin transfer torque is exerted during the last part of the voltage […]

Magnetic Origami Magnetic devices made from the same thin film and subjected to the same electric excitation switch opposite to each other due to their different shape. Mihai MIRON The magic about the art of paper folding is that from the same sheet of paper one can create so many different objects. Unfortunately, the functionality […]