Request for Conference Support: The Magnetics and Optics Research International Symposium (MORIS2018)

Abstract

The Magnetics and Optics Research International Symposium (MORIS2018) brings togetherresearchers and engineers from the US, Japan," and Europe to discuss and advance fundamentaland applied research in magneto-optical phenomena and devices and beyond. With more t"han100 participants and 80 presentations expected over four days, the event provides a stimulatingenvironment for scientists from"" different disciplines to engage in an information exchange andnetwork, and to encourage the spawning of new ideas and collaboratio"ns through crosspollinationof ideas and concepts from the different fields. Its focus includes the fundamentalaspects of nonlinear magneto-optical effects in magnetophotonic crystals and their applications.It will also elucidate the intricate coupled dynamics o"f electrons, magnetism and the crystallattice in the field of ultrafast magnetization reversal from the angle of time-resolved magn"etoopticalexperiments and discuss the possible impact of this field to ultrahigh-speed read-writeprocesses of magnetic data. MORIS"2018 will devote its efforts on light-matter interactions inmeta-materials and photonic crystals, a key focus here being the materi""als with negativerefractive indices, the merger of nanophotonic advancements with plasmonics, and theintegration of mathematical t"opology to the field. A component of the symposium that has grownimmensely in the last few years is information transport and proce"ssing using magnons indielectrics. Here, the symposium will focus on fundamental and device aspects including roomtemperatureBose-""Einstein condensation of magnons and magnon supercurrents, thedevelopment of high-speed magnon logic devices, and the discovery of"" low-loss magneticmaterials which will enable long-lived magnon currents. Finally, one of the most significantcomponents of MORIS2""018 will be heat-assisted magnetic recording, where the focus is headintegration, surface plasmon resonance, antenna devices and re""cording physics, as well as newrecording media and nano-magnetic materials, where bit-patterned media, multi-layer magneticrecordi""ng media, high-Ku materials, magnetic nanoparticles and material characterization usingnano x-ray spectroscopy will be the main foc"i.

Document Details

Document Type

DoD Grant Award

Publication Date

Dec 20, 2017

Source ID

N000141812042

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