The beneficiaries have formed a multi-national collaboration to explore novel nano-structured magnetic meta-materials that will exhibit dynamic responses at GHz and THz frequencies artificially at the nano-scale. These so called magnonic nano-materials will form a new class of meta-materials with so far unexplored collective magnonic and associated electro-magnetic responses giving rise to new complex but potentially very rewarding functionalities. At the same time, they will provide an added value to existing magnetic devices and conventional meta-materials.
FP7 UE: MAGNONICS: MASTERING MAGNONS IN MAGNETIC META-MATERIALS
GIOVANNINI, Loris;
2009
Abstract
The beneficiaries have formed a multi-national collaboration to explore novel nano-structured magnetic meta-materials that will exhibit dynamic responses at GHz and THz frequencies artificially at the nano-scale. These so called magnonic nano-materials will form a new class of meta-materials with so far unexplored collective magnonic and associated electro-magnetic responses giving rise to new complex but potentially very rewarding functionalities. At the same time, they will provide an added value to existing magnetic devices and conventional meta-materials.File in questo prodotto:
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