Symposium FF
Magnetic Materials for Energy
Programme Chair:
Franca ALBERTINI, IMEM-CNR, Italy
Members:
Pedro A. ALGARABEL, ICMA, CSIC-Universidad de Zaragoza, Spain
Ekkes BRUECK, Delft University of Technology, Netherlands
Vasiliy D. BUCHELNIKOV, Chelyabinsk State University, Russia
K.T. CHAU, University of Hong Kong, Hong Kong
Zhao-hua CHENG, Institute of Physics, CAS, China
Michael COEY, Trinity College Dublin, Ireland
Lesley COHEN, Imperial College London, UK
Peter ENTEL, University of Duisburg-Essen, Germany
Simone FABBRICI, MIST E-R Laboratory & IMEM-CNR, Italy
Claudia FELSER, Max-Planck-Inst.f.Chem.Physik fester Stoffe, Germany
Dino FIORANI, ISM-CNR, Italy
Cristina GOMEZ-POLO, Public University of Navarra, Spain
Oliver GUTFLEISCH, Technical University Darmstadt, Germany
George C. HADJIPANAYIS, University of Delaware, USA
Ryusuke HASEGAWA, Metglas Inc., USA
Kazuhiro HONO, NIMS, Japan
Vladimir V. KHOVAYLO, National Univ.of Science & Technology, MISiS, Russia
J. Ping LIU, University of Texas, Arlington, USA
Lluis MANOSA, University of Barcelona, Spain
Dimitris NIARCHOS, NCSR Demokritos, Greece
Paola TIBERTO, INRIM, Italy
Franca ALBERTINI, IMEM-CNR, Italy
Members:
Pedro A. ALGARABEL, ICMA, CSIC-Universidad de Zaragoza, Spain
Ekkes BRUECK, Delft University of Technology, Netherlands
Vasiliy D. BUCHELNIKOV, Chelyabinsk State University, Russia
K.T. CHAU, University of Hong Kong, Hong Kong
Zhao-hua CHENG, Institute of Physics, CAS, China
Michael COEY, Trinity College Dublin, Ireland
Lesley COHEN, Imperial College London, UK
Peter ENTEL, University of Duisburg-Essen, Germany
Simone FABBRICI, MIST E-R Laboratory & IMEM-CNR, Italy
Claudia FELSER, Max-Planck-Inst.f.Chem.Physik fester Stoffe, Germany
Dino FIORANI, ISM-CNR, Italy
Cristina GOMEZ-POLO, Public University of Navarra, Spain
Oliver GUTFLEISCH, Technical University Darmstadt, Germany
George C. HADJIPANAYIS, University of Delaware, USA
Ryusuke HASEGAWA, Metglas Inc., USA
Kazuhiro HONO, NIMS, Japan
Vladimir V. KHOVAYLO, National Univ.of Science & Technology, MISiS, Russia
J. Ping LIU, University of Texas, Arlington, USA
Lluis MANOSA, University of Barcelona, Spain
Dimitris NIARCHOS, NCSR Demokritos, Greece
Paola TIBERTO, INRIM, Italy
Zdenek ARNOLD, Institute of Physics AS CR, Czech Rep.
Ekkes BRUCK, Delft University of Technology, Netherlands
Nora DEMPSEY, Institut Neel, France
Jun DING, National University of Singapore, Singapore
Claudia FELSER, Max-Planck-Institut f.Chemische Physik fester Stoffe, Germany
Oliver GUTFLEISCH, Technical University Darmstadt, Germany
George C. HADJIPANAYIS, University of Delaware, USA
Ryusuke HASEGAWA, Metglas Inc., USA
Yanglong HOU, Peking University, China
Olivier ISNARD, Institut Neel, France
Manfred KOHL, Karlsuhe Institute of Technology (KIT), Germany
Matthew J. KRAMER, Iowa State University, USA
Afef LEBOUC, Grenoble Electrical Engineering Laboratory, France
Laura H. LEWIS, Northeastern University, USA
J. Ping LIU, University of Texas, Arlington, USA
Akihiro MAKINO, Tohoku University, Japan
Lluis MANOSA, University of Barcelona, Spain
Xavier MOYA, University of Cambridge, UK
Karl SANDEMAN, Imperial College, UK
Navid SEPEHRI-AMIN, NIMS, Japan
Ivan SKORVANEK, Institute of Experimental Physics SAS, Slovakia
Kari ULLAKKO, Lappeenranta University of Technology, Finland
Ekkes BRUCK, Delft University of Technology, Netherlands
Nora DEMPSEY, Institut Neel, France
Jun DING, National University of Singapore, Singapore
Claudia FELSER, Max-Planck-Institut f.Chemische Physik fester Stoffe, Germany
Oliver GUTFLEISCH, Technical University Darmstadt, Germany
George C. HADJIPANAYIS, University of Delaware, USA
Ryusuke HASEGAWA, Metglas Inc., USA
Yanglong HOU, Peking University, China
Olivier ISNARD, Institut Neel, France
Manfred KOHL, Karlsuhe Institute of Technology (KIT), Germany
Matthew J. KRAMER, Iowa State University, USA
Afef LEBOUC, Grenoble Electrical Engineering Laboratory, France
Laura H. LEWIS, Northeastern University, USA
J. Ping LIU, University of Texas, Arlington, USA
Akihiro MAKINO, Tohoku University, Japan
Lluis MANOSA, University of Barcelona, Spain
Xavier MOYA, University of Cambridge, UK
Karl SANDEMAN, Imperial College, UK
Navid SEPEHRI-AMIN, NIMS, Japan
Ivan SKORVANEK, Institute of Experimental Physics SAS, Slovakia
Kari ULLAKKO, Lappeenranta University of Technology, Finland
Magnetic materials are widely used in several important applicative sectors related to energy conversion, electric power generation, transportation, power electronics and information technology and can play a crucial role in the realization of technologies aimed at energy saving and CO2 emission reduction.
Hard and soft magnetic materials find for example different applications in permanent magnets, and in the generation and conversion of electric power. Their optimisation could benefit different strategic sectors, e.g. hybrid and electric vehicle motors, wind power generation, energy harvesting. Among energy-efficient magnetic technologies an important role is also played by magnetocaloric materials for their possible exploitation in magnetic refrigeration, a clean technology alternative to conventional vapour compression.
Moreover micro/nano structures based on magnetic thin films and obtained with CMOS-compatible technologies pave the way to new classes of devices, sensors and components (converters, inductors…) that can give a strong impact to energy efficiency in important technological sectors such as information technology and the consumer electronics.
This Symposium will highlight recent developments in the realization of novel magnetic materials and devices and in their properties optimisation for ongoing and foreseeable energy applications.
Hard and soft magnetic materials find for example different applications in permanent magnets, and in the generation and conversion of electric power. Their optimisation could benefit different strategic sectors, e.g. hybrid and electric vehicle motors, wind power generation, energy harvesting. Among energy-efficient magnetic technologies an important role is also played by magnetocaloric materials for their possible exploitation in magnetic refrigeration, a clean technology alternative to conventional vapour compression.
Moreover micro/nano structures based on magnetic thin films and obtained with CMOS-compatible technologies pave the way to new classes of devices, sensors and components (converters, inductors…) that can give a strong impact to energy efficiency in important technological sectors such as information technology and the consumer electronics.
This Symposium will highlight recent developments in the realization of novel magnetic materials and devices and in their properties optimisation for ongoing and foreseeable energy applications.
Session Topics
FF-1 Hard magnetic materials
FF-2 Soft magnetic materials
FF-3 Magnetocaloric and multifunctional magnetic materials
FF-4 Magnetic devices and components for energy applications