C9: Awards

2021 Calls for nominations – Now Open

IUPAP Magnetism Award and Néel Medal

Established in 1991, the IUPAP Magnetism Award is made in recognition of outstanding contributions to fundamental and applied magnetism. It is presented every three years at the International Conference on Magnetism (ICM). The Néel Medal is awarded together with the Magnetism Award, since 2003, sponsored by CNRS and Institut Néel. A monetary award for the winner(s) is generously sponsored by Elsevier.

2018, San Francisco, USA
	Samuel D. Bader Argonne National Laboratory For outstanding and sustained experimental contributions to the field of magnetic surfaces, films, and nanostructures.
	Ramamoorthy Ramesh University of California, Berkeley For groundbreaking discoveries in novel multiferroic and magnetoelectric materials and their applications in future technologies.
	Kang L. Wang University of California, Los Angeles For the discovery of chiral Majorana fermions and outstanding contributions to topological spintronics.
2015, Barcelona, Spain
	Chia-Ling Chien The Johns Hopkins University, USA For pioneering discoveries in magnetic materials and nanostructures.
2012, Busan, Korea
	Sadamichi Maekawa Japan Atomic Energy Agency, Japan For contributions to the development of the physics and application of spintronics for thirty years, since his seminal work on tunneling magnetoresistance in 1982. He has recently proposed the spin-motive force, which is the conversion mechanism of magnetic and electric energy, and presented the linear-response theory of spin Seebeck effect. Presently: RIKEN Center for Emergent Matter Science, Japan
	Yoshinori Tokura The University of Tokyo, Japan For discoveries of novel magnetoelectronic properties in strongly correlated electronic systems, including the discovery of electron doped high temperature superconductors, studies of Mott criticality, orbital physics, and colossal magnetoresistance, experimental discoveries of gigantic magnetoelectric effects in multiferroics. Presently: RIKEN Center for Emergent Matter Science and the University of Tokyo, Japan
2009, Karlsruhe, Germany
	Stuart S. P. Parkin IBM Almaden Research Center, USA For his pioneering work and fundamental contributions to the development of spintronic nano-materials and nano-devices for magnetic sensing, memory and logic devices. Presently: Max Planck Institute of Microstructure Physics, Germany
2006, Kyoto, Japan
	John C. Slonczewski IBM Research Center, Yorktown Heights, New York, USA For fundamental theories concerning domain wall dynamics, exchange and electron transport in magnetic thin-films and multilayers, advancing ideas for storage, memory and oscillators. His predictions include bilinear and biquadratic coupling, magnetoresistance and spin transfer torque, leading to magnetic switching and to the generation of spin waves and microwaves.
2003, Rome, Italy
	Gabriel Aeppli University College London, UK Presently: ETH Zürich, EPF Lausanne and Paul Scherrer Institut, Switzerland
	David D. Awschalom University of California, Santa Barbara, USA Presently: Institute for Molecular Engineering, University of Chicago
	Hideo Ohno Tohoku University, Japan
	For their outstanding achievements in magnetism of quantum electron systems. Aeppli has pioneered the study of magnetic correlations by neutron scattering, demonstrating the ubiquity of antiferromagnetic correlations in paramagnets and superconductors; Awschalom has done ground-breaking work with femtosecond optical methods to reveal both spatial and temporal aspects of spin dynamics; Ohno has developed new types of ferromagnetic semiconductors which have facilitated some key aspects of spin electronics.
2000, Recife, Brazil
	Frank Steglich Max Planck Institute for Chemical Physics of Solids, Dresden, Germany For his outstanding contributions to the experimental study of strongly correlated electron systems and in particular to heavy fermion physics. His careful and detailed experiments have elucidated the magnetic and superconducting properties of heavy fermions and correlated these with non-Fermi liquid behaviour near the quantum critical point.
1997, Cairns, Australia
	Robert J. Birgeneau Massachusetts Institute of Technology, USA For achievements in the field of magnetism, and in particular for the identification of model magnetic systems and the experimental elucidation of their behavior using neutron scattering techniques. Presently: University of California, Berkeley, USA
1994, Warsaw, Poland
	Albert Fert* Université Paris-Sud, Orsay, France Presently: Unité Mixte de Physique CNRS-Thales, Palaiseau, France
	Peter Grünberg* Institut für Festkörperforschung, Jülich, Germany
	For their outstanding scientific contributions and for their pioneering work in the field of magnetic coupling and magnetoresistance in artificial multilayered structures. *2007 Physics Nobel Laureates
1991, Edingburgh, United Kingdom
	Arthur J. Freeman Northwestern University, USA For the pioneer research which he has been conducting with particular intensity in the past five years in a very “hot” innovative field – that of surface magnetism, interfaces, monolayers, ultrathin films, sandwiches and modulated structures.

IUPAP Young Scientist Prize in the field of Magnetism

The IUPAP Young Scientist Prize in the field of Magnetism is awarded for theoretical or experimental work in fields of fundamental or applied magnetism. First established in 2006, this prize was initially awarded every three years at the International Conference on Magnetism (ICM). Since 2016, this prize has been converted to an annual award. The prize comes with a monetary award from IUPAP.

2020
	Jiadong Zang University of New Hampshire, USA For outstanding theoretical studies of the interplay between magnetism and topology.
2019
	Julia Mundy Harvard University, USA For pathbreaking research on electric field control of magnetism using epitaxially designed multiferroics.
2018
	Shinichiro Seki RIKEN Center for Emergent Matter Science, Japan For discovery of multiferroic behavior and electrically controllable skyrmions in insulating chiral magnets.
2017
	Luqiao Liu Massachusetts Institute of Technology, USA For the pioneering demonstrations of the spin Hall effect excitation of ferromagnetic resonance, and of the surprisingly large spin Hall angles of particular heavy metals as determined by spin-torque ferromagnetic resonance, for seminal experiments and analysis of magnetic switching and auto-oscillation driven by that spin Hall effect, and for continuing research advancing the understanding and applicability of spin-orbit torques.
2016
	Wei Han Peking University, China For significant contributions to spin injection, spin transport and spin relaxation in graphene, and to the discovery of interface transparency and triangular antiferomagnetic IrMn₃ for spin orbit torque in magnetic heterostructures.
2015, Barcelona, Spain
	Marius V. Costache Catalan Institute of Nanoscience and Nanotechnology (ICN2), Spain For the development of new methods to excite and detect on-chip ferromagnetic resonance and new detection schemes for the magnon-drag effect.
	Masamitsu Hayashi National Institute for Materials Science, Japan For the pioneering work on domain wall dynamics in magnetic nanowires and contributions to the development of current controlled magnetism in magnetic heterostructures using spin orbit effects. Presently: The University of Tokyo, Japan
2012, Busan, Korea
	Suchitra Sebastian Cavendish Laboratory, University of Cambridge, UK For her leading role in the following discoveries in the field of magnetism and superconductivity: novel phenomena in frustrated quantum magnets, unconventional quantum phase transitions in heavy fermion and copper oxide superconductors, superconductivity under pressure in iron arsenide antiferromagnets, and new quantum oscillatory effects in copper oxide superconductors.
2009, Karlsruhe, Germany
	Sergio O. Valenzuela Catalan Institution for Research and Advanced Studies (ICREA) and Catalan Institute of Nanoscience and Nanotechnology (ICN2), Spain For significant contributions to nonlocal spin-detection methods, including the first electronic detection of the spin Hall effect and of pure spin currents.
	Eiji Saitoh Keio University, Japan For the fabrication of highly original nanostructures and for the discovery of important spin transport phenomena, including the spin-Seebeck effect and the inverse spin-Hall effect. Presently: Tohoku University, Japan
	Takashi Kimura INAMORI Frontier Research Center, Kyushu University, Japan For the study of spin transport in lateral metallic spin valves, and the observation of the pure spin-current induced magnetization reversal and the reversible spin Hall effect.
2006, Kyoto, Japan
	Siddharth Shanker Saxena Cavendish Laboratory, University of Cambridge, UK For his pioneering discovery that the boundary of ferromagnetism in metals hosts a low-temperature superconducting phase, as exemplified by UGe₂, where ferromagnetism and superconductivity coexist over a range of pressures, and for other stimulating contributions at the interface of magnetism and superconductivity.
	Satoshi Okamoto Columbia University, USA In recognition of his fundamental theoretical work establishing the properties of orbiton excitations in magnetic materials, and the physical ideas for determining the electronic properties of oxide heterostructure interfaces. Presently: Oak Ridge National Laboratory, USA