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cookies help us deliver our services. by using our services or clicking i agree, you agree to our use of cookies. i agree cookie policy international school of crystallography - erice 74 w elcome 16 s peakers 15 p rogramme magnetic cr. programme cryo 3d programme 53 i nformation cost & payment grants visa social events -- 23 v enue the school the centre erice, the town getting there lodovico 91 pa st & future 6 c ontact myerice crystalerice ettore majorana foundation and centre for scientific culture president: professor antonino zichichi international school of crystallography director: sir tom blundell, frs fmedsci 53rd course: magnetic crystallography erice 31 may - 9 june 2019 directors of the course: b.j. campbell brigham young university, provo, ut, us bio m.t. fernandez-diaz institut laue-langevin, grenoble, fr bio j.m. perez-mato university of the basque country, bilbao, es bio application to magnetic crystallography course deadline: 30 november 2018 apply purpose of the course since the first magnetic neutron-diffraction experiments almost 70 years ago (1994 nobel prize), magnetic-structure research has grown tremendously within the materials physics, chemistry, and engineering fields (e.g. superconductivity, multiferroics, spintronics, information storage, molecular magnetism). magnetic degrees of freedom lie at the heart of much of the exciting science being done today at international scattering facilities, and hundreds of magnetic structures are now published every year by a diverse range of research communities. in response to this progress, the crystallographic community is also rapidly developing and delivering new infrastructure with which to solve, refine, analyze and describe magnetic structures. where chaos once reigned, consensus and remarkable new tools have emerged. the school will address key advances in magnetic-structure research, as well as the foundational and state-of-the-art of theoretical, experimental, and computational capabilities that made these advances possible. the program, which includes both lectures and many hands-on-tutorials, is designed to engage both new and veteran members of the magnetic-structure community. scientific topics will include: 1) important magnetic systems and magnetic-structure types (e.g. commensurate and incommensurate, antiferromagnetic, amplitude-modulated, helical, skyrmionic, etc...); 2) the theory and practice of using magnetic symmetry groups (e.g. point groups, space groups, superspace groups, subperiodic groups) and relating them to magnetic physical properties; 3) the complete and unambiguous description of a magnetic structure; comparison of the correct use of wave amplitudes, magnetic supercells, and representational modes; how magnetic symmetry can be used to further constrain any of these descriptions; 4) advanced instruments and experimental methods for probing magnetic structures; 5) computational tools for exploring, solving and refining commensurate and incommensurate magnetic structures; 6) computational tools and resources for performing magnetic representational analyses, applying magnetic symmetry groups, and manipulating the description of a magnetic structure; 7) open-access archives for commensurate and incommensurate magnetic structures. sponsored by: -- speakers and tutors m. avdeev ansto, lucas heights, au bio max avdeev is an instrument scientist responsible for the high-resolution neutron powder diffractometer echidna at the opal research reactor operated by the australian nuclear science and technology organisation (ansto). he received phd for synthesis and crystal structural studies of superionic conductors in 1999. between 2000 and 2005 he worked as a postdoctoral researcher first at the university of aveiro (portugal) and then argonne national laboratory (usa). in 2005 he joined ansto as a full-time scientist. his main research interests are studies of crystal and magnetic structure of inorganic materials using x-ray and neutron diffraction and atomistic modelling. l.c. chapon diamond light source, didcot, uk bio bio testo l. elcoro university of the basque country, bilbao, es bio luis elcoro studied physics at the universidad autonoma in madrid. during his ph. d. at the university of the basque country he focused on the structure determination of quasicrystals under the superspace formalism. later he extended the use of the superspace to the analysis of families of compounds whose structure details depend on continuous parameters and to the ordered distributions of vacancies. since 2011 he is one of the developers of the bilbao crystallographic server (bcs). most of his contributions to the bcs are included in the magnetic section, devoted to the structure analysis of magnetic structures based on symmetry considerations. at present he is involved in the study of topological insulators using group theory to describe systematically the electronic extended states (band structures). he is also applying the developed methods to the identification of materials that can potentially be topological insulators or semi-metals. o. fabelo institut laue-langevin, grenoble, fr bio bio testo v.o. garlea oak ridge national laboratory, oak ridge, tn, us bio ovidiu garlea is instrument scientist at the hyspec spectrometer at the spallation neutron source (sns), oak ridge national laboratory. he holds a courtesy appointment with the department of chemistry and biochemistry at florida state university and is adjoint associate professor at the department of materials sciences and engineering at the university of tennessee. he received his phd in solid state physics from joseph-fourier university, grenoble, france in 2001. since then he has worked as a post-doctoral researcher at the synchrotron light laboratory elettra, at the ames laboratory, and at the oak ridge national laboratory. from 2007 until 2013, he served as lead instrument scientist at the hb2a neutron powder diffractometer at high flux isotope reactor (hfir) where he oversaw the installation of the instrument and built a vibrant magnetic diffraction community. he initiated a workshop series on magnetic structure determination that runs regularly since 2009. starting with 2013, he contributed to the successful commissioning of the hyspec spectrometer at the sns and to the implementation of the neutron polarization analysis capability. his research focuses on studies of frustrated magnets, quantum systems and strongly correlated electron systems using neutron diffraction and inelastic neutron scattering technique. m.i.s. henriques cas institute of physics, prague, cz bio margarida henriques was born in coimbra, portugal and graduated in materials engineering at the university of coimbra. she worked as a materials engineer before she obtained her phd degree in materials science and engineering from the university of lisbon, portugal. her interest in new magnetic crystallography and electronic properties of new materials lead her for her post-doc work within the group of structure analysis of the institute of physics, czech academy of sciences. she is involved in the development of the magnetic option of jana2006, which concerns systematic data processing and solution of commensurate and incommensurate magnetic structures. she also works in synthesis and characterization of new materials containing f-elements using x-ray and neutron scattering techniques under multi-extreme conditions. as a part of this work, she stayed at institute laue-langevin in grenoble, france. there she worked as a scientist in the diffraction group, studying magnetic diffraction in single-crystals of magnetically frustrated materials. margarida is also involved in the preparation and lecturing in workshops concerning the magnetic option of jana2006 for scientists and students of worldwide renown neutron facilities and lecturing phd students in physics at charles university in prague. she is also a member of the comission for magnetic

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