Nanostructures: growth quantum effects and magnetism – Magnetic helicoidal dichroism
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Equipe: Nanostructures: growth, quantum effects and magnetism
Nanostructures: growth, quantum effects and magnetism – Diluted magnetic semiconductors
Team Permanent members: Catherine Gourdon, Laura Thevenard Previous PhD : M. Kraimia (2016-2020), P. Kuszewski (2015-2018), S. Shihab (2012-2015), S. Haghoo (2008-2012) Previous post-doc: I. Camara (2015-2016) In semiconducting materials, we have developed different...
Nanostructures: growth, quantum effects and magnetism – FeRh
Team Permanent members: Catherine Gourdon, Laura Thevenard PhD Student: A. Vythelingum (2021-2024) Post-doctorant: Djoudi Ourdani (2023-2025) FeRh is an intriguing material that exhibits a first-order phase transition, changing from an antiferromagnetic (AF) to...
Time- and space-resolved detection of GHz magnetization dynamics
In computers magnetism intervenes in the data storage components, with information coded by the magnetization direction of submicronic magnetic domains. The calculations are instead done using semiconducting materials, with transistors performing logical operations (“NOT”,...
ANR HYPNOSE – About the project
The HYPNOSE project proposes to follow a new path in magnetization manipulation by combining the development of hybrid systems and optical magnetization control. Our approach is based on the development of vertically self-assembled nanocomposites...
ANR HYPNOSE
About the project Contact ANR – Hybrid photostrictive-magnetic nanocomposites – HYPNOSE The HYPNOSE project aims to pioneer a novel approach to magnetization manipulation by integrating hybrid systems and optical control techniques. The project focuses on...
Nanostructures: growth, quantum effects and magnetism – Spin Q-bits
Permanent staff : Benoit Eble, Valia Voliotis, Paola Atkinson The NQMAG team at INSP (Paris Institute of NanoScience) is the only team in France studying GaAs/Al(1-x)GaxAs quantum dots (QDs) created by nanohole infilling. These...
« Quantum Dots Optics, Electron Transport and Future Applications »
A comprehensive review of cutting-edge solid state research, focusing on its prominent example – quantum dot nanostructures – this book features a broad range of techniques for fabrication of these nano-structured semiconductors and control...
