MMM 2022 Program Committee
Fundamental Properties and Cooperative Phenomena
- Igor Zutic, University of Buffalo, Dept. of Physics
- Arjun Pathak, State University of New York, Buffalo State
- Derek Stewart, Western Digital
Magnetoelectronic Materials and Phenomena
- Karin Leistner, Technische Universität Chemnitz
- Silvia Piccozzi, CNR-SPIN
- Felix Casanova, CIC Naogune
- Ying-Hao Chu, National Yang Ming Chiao Tung University
- Dustin Gilbert, University of Tennessee
- Pham Nam Hai, Tokyo Institute of Technology
- Yuya Sakuraba, NIMS
- Nittin Samarth, Penn State
Spintronics – Fundamentals and Devices
- Saroj Dash, Chalmers University of Technology
- Takahiro Moriyama, Institute for Chemical Research, Kyoto University
- Weisheng Zhao, Fert Beijing Institute, Beihang University
- Vincent Baltz, SPINTEC
- Satoru Emori, Virginia Tech
- Karin Everschor-Sitte, University Duisburg-Essen
- Kohei Hamaya, Osaka University, Japan
- Thomas Jungwirth, University of Nottingham
- Makoto Kohda, Tohoku University
- Waldemar Macedo, Centro de Desenvolvimento da Tecnologia Nuclear – CDTN
- Witold Skowvronsky, AGH University of Science and Technology
- Vincent Sokalski, Carnegie Mellon
- Sumito Tsunegi, AIST
Magnetization Dynamics and Micromagnetics
- Hans Nembach, NIST Boulder
- Dieter Suess, University of Vienna
- Stefan Bluegel, Forschungszentrum Juelich
- Kouta Kondou, University of Tokyo
- Carles Navau, Autonomous University of Barcelona
- Sebastiaan van Dijken, Aalto University
- Hyunsoo Yang, NUS
- Yan Zhou, The Chinese University of Hong Kong
Magnetic Recording
- Dafiné Ravelosona, Université Paris Saclay
- Simon Greaves, Tohoku University
- Chris Rea, Seagate Technology
Soft Magnetic Materials
- Nicoleta Lupu, National Institute of R&D for Technical Physics
- Ignasi Fina, ICMAB
- Eva Pellicer, Autonomous University of Barcelona
Hard Magnetic Materials
- Alberto Bollero, IMDEA
- Julius de Rojas, University of Durham
- Enric Menéndez, Autonomous University of Barcelona
- Hossein Sepehri-Amin, NIMS
Structured Materials
- Jamileh Beik Mohammadi, Loyola University, New Orleans
- Paola Tiberto, INRIM
- Sara Majetich, Carnegie Mellon
- Taro Nagahama, Hokkaido University
- Josep Nogués, Catalan Institute of Nanotechnology
- Elizabeth Skoropata, Paul Scherer Institute, Switzerland
- Michael Vogel, University of Kassel
Multi-Functional Magnetic Materials and Applications
- Axel Hoffmann, University of Illinois Urbana-Champaign
- Mehrdad Elyasi, Tohoku University
- Suzanne te Velthius, Argonne National Lab
Sensors, High Frequency Devices and Power Devices
- Yanhui Gao, Oita University, Japan
- Rubem Sommer, Brazilian Center of Physics Research, Rio
- Amr Adly, Cairo University
- Zhi Ning Chen, NUS
- Peng Li, Auburn University
- Myounggyu Noh, Korea Institute of Machinery and Materials
Interdisciplinary and Emerging Topics
- Cindi Dennis, NIST
- Ravi Hadimani, Virginia Commonwealth University
- Jaesuk Kwon, University of Texas, Austin
- Jiayan Law, University of Seville
- Salvador Pané, ETH Zurich
Magnetic Characterization
- Hendrik Ohldag, ALS
- Victorino Franco, Universidad de Sevilla
- Valeria Lauter, ORNL
VIRTUAL SESSION CHAIRS
AOA | Electronic Structure and Critical Phenomena | Cheng | Gong | University of Maryland | United States |
AOB | Low-Dimensional Systems and Frustrated Magnetims | Yaroslav | Mudryk | Iowa State University | United States |
AOC | Superconductivity and Quantum Materials | Mahmud | Khan | Miami University | United States |
APA | Fundamental Properties and Cooperative Phenomena | Rajesh | Chopdekar | Western Digital | United States |
BOA | Complex Oxides | Daniela | Petti | Politecnico di Milano | Italy |
BOB | Multiferroic, Magnetoelectric and Half-Metallic Materials | Takahide | Kubota | Tohoku University | Japan |
BPA | Multiferroics, Magnetoelectrics, Complex Oxides and Half-Metallics | Ying-Hao | Chu | National Yang Ming Chiao Tung University | Taiwan |
COA | Magneto-ionics | Enric | Menendez | Autonomous University of Barcelona | Spain |
COB | Topological Insulators, Dirac Materials, 2D and Layered van der Waals Materials I | Marco | Gobbi | CIC nanoGUNE | Spain |
COC | Topological Insulators, Dirac Materials, 2D and Layered van der Waals Materials II | Shinobu | Ohya | The University of Tokyo | Japan |
CPA | Magnetoelectronic Materials and Phenomena | Markus | Gößler | Chemnitz University of Technology | Germany |
DOA | Magnetoresistance in Heterostructures (GMR, TMR, TAMR) | William | Echtenkamp | University of Minnesota | United States |
Simon | Granville | Victoria University of Wellington | New Zealand | ||
DOB | MRAM, Magnetic Logic and Related Devices | Christopher | Safranski | IBM | United States |
Reinoud | Lavrijsen | Eindhoven University of Technology | Netherlands | ||
DOC | Neuromorphic Computing | Joseph | Friedman | The University of Texas at Dallas | United States |
DPA | Spintronic Devices for Memory and Computing | Shouzhong | Peng | Beihang University | China |
Luding | Wang | Eindhoven University of Technology | Netherlands | ||
EOA | Antiferromagnetic Spintronics I | Kab-Jin | Kim | Korea Advanced Institute of Science and Technology | Korea (the Republic of) |
Myoung-Woo | Yoo | University of Illinois at Urbana-Champaign | United States | ||
EOB | Antiferromagnetic Spintronics II | Fernando | Ajejas | University of California, San Diego | United States |
EOC | Skyrmions I | Olivier | Boulle | SPINTEC | France |
EOD | Skyrmions II | Avik | Ghosh | University of Virginia | United States |
EOE | Spin-Orbitronics I | Shinji | Isogami | National Institute for Materials Science | Japan |
Tomohiro | Taniguchi | National Institute of Advanced Industrial Science and Technology | Japan | ||
EOF | Spin-Orbitronics II | Victor | Lopez Dominguez | Northwestern University | United States |
EPA | Antiferromagnetic Spintronics III | Takeshi | Seki | Tohoku University | Japan |
EPB | Skyrmions and Spin-Orbitronics | Yue | Li | Argonne National Laboratory | United States |
FOA | Spin Dynamics | Lakhan | Bainsla | University of Gothenburg | Sweden |
FOB | Spin Hall and Spin-Orbit Torque I | Simranjeet | Singh | Carnegie Mellon University | United States |
FOC | Spin Hall and Spin-Orbit Torque II | Yongxi | Ou | The Pennsylvania State University | United States |
FOD | Spin Transport | Bhaskaran | Muralidharan | Indian Institute of Technology | India |
Yuki | Hibino | National Institute of Advanced Industrial Science and Technology | Japan | ||
FPA | Spin Current and Dynamics | Lucas | Caretta | Brown University | United States |
GOA | Magnetization Dynamics I | Vijaysankar | Kalappattil | Colorado State University | United States |
GOB | Magnetization Dynamics II | Ezio | Iacocca | University of Colorado Colorado Springs | United States |
GOC | Magnetization Dynamics III | Steven | Louis | Oakland University | United States |
GOD | Magnetization Dynamics IV | Dmytro | Bozhko | University of Colorado Colorado Springs | United States |
GOE | Magnetization Dynamics V | Jose Angel | Fernandez-Roldan | Helmholtz Zentrum Dresden-Rossendorf | Germany |
Raghav | Sharma | National University of Singapore | Singapore | ||
GPA | Magnetization Dynamics VI | Joseph | Sklenar | Wayne State University | United States |
Shuyuan | Shi | Beihang University | China | ||
HOA | Magnetic Imaging and Magnetization Dynamics | Andrew | Kunz | Marquette University | United States |
HOB | Magnetization Dynamics and Micromagnetics | Gabriel | Chaves-O’Flynn | Polska Akademia Nauk Instytut Fizyki Molekularnej | Poland |
HOC | New Approaches in Computational Magnetism | Michael | Donahue | National Institute of Standards and Technology | United States |
HOD | Skyrmions: Characterization, Dynamics and Control | Kab-Jin | Kim | Korea Advanced Institute of Science and Technology | Korea (the Republic of) |
Thomas | Winkler | JGU Mainz | Germany | ||
HPA | Magnetization Dynamics and Micromagnetics | Stefan | Pollok | Danmarks Tekniske Universitet | Denmark |
Alexander | Kovacs | Danube University Krems | Austria | ||
HPB | Skyrmions and Domain Walls | Jackson | Ross | University of York | United Kingdom |
Harald | Oezelt | Danube University Krems | Austria | ||
IOA | Magnetic Recording I | Simon | Greaves | Tohoku University | Japan |
IOB | Magnetic Recording II | Chris | Rea | Seagate Technology | United States |
IPA | Magnetic Recording III | Dafine | Ravelosona | Universite Paris Saclay | France |
JOA | Amorphous and Nanocrystalline Soft Magnets I | Manuel | Vázquez | Instituto de Ciencia de Materiales de Madrid | Spain |
Charudatta | Phatak | Argonne National Laboratory | United States | ||
JOB | Ferrites, Garnets and Magneto-Dielectric Materials I | Ramanathan | Mahendiran | National University of Singapore | Singapore |
JOC | Soft Magnetic Crystalline Alloys I | Victorino | Franco | University of Seville | Spain |
JPA | Amorphous and Nanocrystalline Soft Magnets II | Cristina | Bran | Instituto de Ciencia de Materiales de Madrid | Spain |
JPB | Ferrites, Garnets and Magneto-Dielectric Materials II | Chuanpu | Liu | Colorado State University | United States |
JPC | Soft Magnetic Crystalline Alloys II | Nicola | Morley | University of Sheffield | United Kingdom |
KOA | Hard Magnetic Materials I: Rare Earth-based Compounds | Thomas | Schrefl | Danube University Krems | Austria |
KOB | Hard Magnetic Materials IV: Rare-Earth Free Hard Magnetic Materials | Brian | Lejeune | Northeastern University | United States |
KOC | Hard Magnetic Materials VI: Nanostructured, Composite and Other Hard Magnetic Materials (Including Intermetallic Alloys and L10 Alloys) | Chuanpu | Liu | Colorado State University | United States |
KPA | Hard Magnetic Materials II: Rare Earth-based Compounds | Enric | Menendez | Autonomous University of Barcelona | Spain |
KPB | Hard Magnetic Materials III: Rare Earth-based Compounds | Zheng | Ma | Universitat Autònoma de Barcelona | Spain |
KPC | Hard Magnetic Materials V: Rare-Earth Free Hard Magnetic Materials | Julius | de Rojas | University of Durham | United Kingdom |
KPD | Hard Magnetic Materials VII: Nanostructured, Composite and Other Hard Magnetic Materials (Including Intermetallic Alloys and L10 Alloys) | Xin | Tang | NIMS | Japan |
LOA | Thin Films and Patterned Structures | Franca | Albertini | Institute of Materials for Electronics and Magnetism, National Research Council | Italy |
LOB | Thin Films and Surface Effects | Paola | Tiberto | INRIM | Italy |
Joao Paulo | Sinnecker | Centro Brasileiro de Pesquisas Físicas | Brazil | ||
LPA | Structured Materials | Yu | Shiratsuchi | Osaka University | Japan |
MOA | Nanocomposite Magnetic Materials | Johan | van Lierop | University of Manitoba | Canada |
Amal | El-Ghazaly | Cornell University | United States | ||
MPA | Nanoparticles, Exchange Bias and 3D Structures | Charudatta | Phatak | Argonne National Laboratory | United States |
NOA | Magneto-Elastic and -Optical Phenomena | Michelle | Jamer | United States Naval Academy | United States |
NOB | Magnetocaloric Materials I | Brittany | Nelson-Cheeseman | University of St. Thomas | United States |
NOC | Magnetocaloric Materials II | Nora | Dempsey | Insttitut NEEL CNRS | France |
NPA | Magneto-Elastic, -Optical and Other Phenomena | Radhika | Barua | Virginia Commonwealth University | United States |
NPB | Magnetocaloric Materials III | Arjun | Pathak | State University of New York, Buffalo State | United States |
OOA | Magnetic Sensors and Devices I | Nicoleta | Lupu | National Institute of R&D for Technical Physics | Romania |
Carmine | Clemente | University of Sannio | Italy | ||
OOB | Magnetic Sensors and Devices II | Atsufumi | Hirohata | University of York | United Kingdom |
OPA | Magnetic Sensors and Devices III | Diana | Leitao | Eindhoven University of Technology | Netherlands |
OPB | Motors, Actuators and Related | Mattia | Butta | Czech Technical University in Prague | Czechia |
PPA | Magnetics for Power Electronics and Control | Yongjian | Li | Hebei University of Technology | China |
PPB | Shielding, Levitation and Propulsion | Jang-Young | Choi | Chungnam National University | Korea (the Republic of) |
PPC | Transformers and Inductors | Xiaojun | Zhao | North China Electric Power University | China |
QOA | Biomedical Application of Magnetic Nanoparticles | Frank | Abel | National Institute of Standards and Technology | United States |
QOB | Magnetic Stimulation in Biology, Magnetic Fluids and Actuators | Adam | Biacchi | National Institute of Standards and Technology (NIST) | United States |
QPA | Applications of Magnetic Nanoparticles in Biomedicine | Eduardo | De Lima Correa | National Institute of Standards and Technology | United States |
QPB | Manipulation of Magnetic Fluids | Norman | Wereley | University of Maryland | United States |
ROA | Magnetic Characterization from Nano to Macro | Peter | Fischer | Lawrence Berkeley National Laboratory | United States |
Alpha | N’Diaye | Lawrence Berkeley National Laboratory | United States | ||
ROB | Recent Advances In Magnetic Imaging | Roopali | Kukreja | University of California, Davis | United States |
Nanna | Zhou Hagström | Stockholm University | Sweden | ||
RPA | Magnetic Characterization and Imaging | Hendrik | Ohldag | Lawrence Berkeley National Laboratory | United States |
Thomas | Feggeler | Lawrence Berkeley National Laboratory | United States | ||
SA | 2D van der Waals Magnets for Practical Device Applications | Manh-Huong | Phan | University of South Florida | United States |
Qiming | Shao | The Hong-Kong University of Science and Technology | China | ||
SB | Recent Developments in Advanced Magnetic Tunnel Junctions | Daniel | Gopman | National Institute of Standards and Technology | United States |
SC | Imaging Magnetic Textures at the Nanoscale | Peter | Rickhaus | Qnami AG | Switzerland |
SD | Metrics and Measurements of Spin-Orbit Torque MRAM | Shehrin | Sayed | University of California, Berkeley | United States |
Jonathan | Sun | IBM T. J. Watson Research Center | United States | ||
SE | Emerging Researcher Symposium on Artificial Spin Ice and Applications | Peter | Schiffer | Yale University | United States |
Joseph | Sklenar | Wayne State University | United States | ||
SF | Computing with Spintronic Oscillators | Mark | Stiles | National Institute of Standards and Technology | United States |
SG | Unconventional Spin-Orbit Torques in Ferromagnets, Ferrimagnets, and Antiferromagnets | Johan | Åkerman | University of Gothenburg | Sweden |
TU | Tutorial: Towards 3D Nanomagnetism | Charudatta | Phatak | Argonne National Laboratory | United States |
YA | Evening Session 1: Magnetism in Nature and the Universe | Chris | Leighton | University of Minnesota | United States |
ZA | Evening Session 2: Roundtable Discussion on Advanced Magnetic Materials for Novel Computing Paradigms | Mark | Stiles | National Institute of Standards and Technology | United States |
ONSITE SESSION CHAIRS
AA | SYMPOSIUM: 2D van der Waals Magnets for Practical Device Applications | Manh-Huong | Phan | University of South Florida | United States |
Qiming | Shao | The Hong-Kong University of Science and Technology | China | ||
AB | Electronic Structure and Critical Phenomena / Low-D Systems and Frustrated Magnetism | Cheng | Gong | University of Maryland | United States |
AC | Recent Advances In Magnetic Imaging | Jenae | Shoup | Theiss Research | United States |
Hendrik | Ohldag | Lawrence Berkeley National Laboratory | United States | ||
AD | Biomedical Application of Magnetic Nanoparticles/Magnetic Stimulation in Biology and Actuators | Adam | Biacchi | National Institute of Standards and Technology (NIST) | United States |
AE | Magnetization Dynamics I | Vijaysankar | Kalappattil | Colorado State University | United States |
AF | Neuromorphic Computing | Joseph | Friedman | The University of Texas at Dallas | United States |
AG | Magnetocaloric Materials I | Brittany | Nelson-Cheeseman | University of St. Thomas | United States |
AH | Spin Hall and Spin-Orbit Torque I | Simranjeet | Singh | Carnegie Mellon University | United States |
BA | SYMPOSIUM: Recent Developments in Advanced Magnetic Tunnel Junctions | Daniel | Gopman | National Institute of Standards and Technology | United States |
BB | Low-D Systems and Frustrated Magnetism | Yaroslav | Mudryk | Iowa State University | United States |
BC | Spin-Orbitronics I | Shinji | Isogami | National Institute for Materials Science | Japan |
BD | Complex Oxides | Daniela | Petti | Politecnico di Milano | Italy |
BE | Magnetization Dynamics II | Ezio | Iacocca | University of Colorado Colorado Springs | United States |
BF | Nanocomposite Magnetic Materials | Johan | van Lierop | University of Manitoba | Canada |
Amal | El-Ghazaly | Cornell University | United States | ||
BG | Magnetocaloric Materials II | Nora | Dempsey | Insttitut NEEL CNRS | France |
BH | Topological Insulators, Dirac Materials, 2D and Layered van der Waals Materials I | Marco | Gobbi | CIC nanoGUNE | Spain |
BP | Skyrmions and Spin-Orbitronics | Yue | Li | Argonne National Laboratory | United States |
BQ | Magnetic Sensors and Devices I and Motors, Actuators and Related | Mattia | Butta | Czech Technical University in Prague | Czechia |
BR | Spintronic Devices for Memory and Computing | Kevin | Garello | SPINTEC | France |
Erol | Girt | Simon Fraser University | Canada | ||
BS | Magnetization Dynamics and Micromagnetics I | Gabriel | Chaves-O’Flynn | Polska Akademia Nauk Instytut Fizyki Molekularnej | Poland |
BT | Multiferroics, Magnetoelectrics, Complex Oxides and Half-Metallics | Takahide | Kubota | Tohoku University | Japan |
CA | SYMPOSIUM: Imaging Magnetic Textures at the Nanoscale | Peter | Rickhaus | Qnami AG | Switzerland |
CB | Antiferromagnetic Spintronics I | Hua | Chen | Colorado State University | United States |
CC | Spin-Orbitronics II | Tomohiro | Taniguchi | National Institute of Advanced Industrial Science and Technology | Japan |
CD | Skyrmions I | Yue | Li | Argonne National Laboratory | United States |
CE | Magnetization Dynamics III | Steven | Louis | Oakland University | United States |
CF | Thin Films and Patterned Structures | Paola | Tiberto | INRIM | Italy |
CG | Hard Magnetic Materials I | Thomas | Schrefl | Danube University Krems | Austria |
Nora | Dempsey | Insttitut NEEL CNRS | France | ||
CH | Topological Insulators, Dirac Materials, 2D and Layered van der Waals Materials II / Multiferroic, Magnetoelectric and Half-Metallic Materials | Shinobu | Ohya | The University of Tokyo | Japan |
CP | Amorphous and Nanocrystalline Soft Magnets I | Manuel | Vázquez | Instituto de Ciencia de Materiales de Madrid | Spain |
CQ | Spin Current and Dynamics/Magnetization Dynamics IV | Dmytro | Bozhko | University of Colorado Colorado Springs | United States |
CR | Magnetization Dynamics V | Joseph | Sklenar | Wayne State University | United States |
CS | Antiferromagnetic Spintronics II | Stanislas | Rohart | Université Paris-Saclay Faculte des Sciences d’Orsay | France |
CT | Magnetoelectronic Materials and Phenomena | Markus | Gößler | Chemnitz University of Technology | Germany |
DA | SYMPOSIUM: Metrics and Measurements of Spin-Orbit Torque MRAM | Shehrin | Sayed | University of California, Berkeley | United States |
Jonathan | Sun | IBM T. J. Watson Research Center | United States | ||
DB | Antiferromagnetic Spintronics III | Andrei | Slavin | Oakland University | United States |
DC | Magnetic Imaging and Magnetization Dynamics VI | Andrew | Kunz | Marquette University | United States |
DD | Skyrmions II | Sebastiaan | van Dijken | Aalto University | Finland |
DE | Magnetization Dynamics VII | Alexander | Kovacs | Danube University Krems | Austria |
DF | Magnetic Sensors and Devices II | Nicoleta | Lupu | National Institute of R&D for Technical Physics | Romania |
DG | Spin Transport | Yuki | Hibino | National Institute of Advanced Industrial Science and Technology | Japan |
DH | Magnetoionics | Enric | Menendez | Autonomous University of Barcelona | Spain |
Markus | Gößler | Chemnitz University of Technology | Germany | ||
DP | Skyrmions and Domain Walls/Magnetic Recording III | Pierre-Olivier | Jubert | Western Digital | United States |
DQ | Fundamental Properties and Cooperative Phenomena | Arnab | Bose | Johannes Gutenberg University | Germany |
DR | Ferrites, Garnets and Magneto-Dielectric Materials I | Yasutomo | Omori | Nihon Denki Kabushiki Kaisha | Japan |
DS | Hard Magnetic Materials II | Alexander | Gabay | University of Delaware | United States |
DT | Manipulation of Magnetic Fluids / Magnetic Characterization and Imaging | Norman | Wereley | University of Maryland | United States |
EA | SYMPOSIUM: Emerging Researcher Symposium on Artificial Spin Ice and Applications | Peter | Schiffer | Yale University | United States |
Joseph | Sklenar | Wayne State University | United States | ||
EB | Magnetoresistance in Heterostructures (GMR, TMR, TAMR) | William | Echtenkamp | University of Minnesota | United States |
EC | Magnetization Dynamics and Micromagnetics II | William | Borders | National Institute of Standards and Technology | United States |
ED | Skyrmions: Characterization, Dynamics and Control | Razan | Aboljadayel | University of Leeds | United Kingdom |
EE | Magnetization Dynamics VIII | Stefan | Pollok | Danmarks Tekniske Universitet | Denmark |
EF | Magnetic Sensors and Devices III | Atsufumi | Hirohata | University of York | United Kingdom |
Michael | Page | Air Force Research Laboratory | United States | ||
EG | Thin Films and Surface Effects | Paola | Tiberto | INRIM | Italy |
EP | Hard Magnetic Materials III | Zheng | Ma | Universitat Autònoma de Barcelona | Spain |
EQ | Structured Materials | Amal | El-Ghazaly | Cornell University | United States |
ER | Structured Materials and Nanoparticles, Exchange Bias and 3D Structures | Charudatta | Phatak | Argonne National Laboratory | United States |
ES | Magneto-Elastic, -Optical and Other Phenomena I | Michelle | Jamer | United States Naval Academy | United States |
FA | SYMPOSIUM: Computing with Spintronic Oscillators | Mark | Stiles | National Institute of Standards and Technology | United States |
FB | MRAM, Magnetic Logic and Related Devices | Christopher | Safranski | IBM | United States |
Hyunsoo | Yang | National University of Singapore | Singapore | ||
FC | New Approaches in Computational Magnetism | Dieter | Suess | University of Vienna | Austria |
Claas | Abert | University of Vienna | Austria | ||
FD | Magnetic Characterization from Nano to Macro | Peter | Fischer | Lawrence Berkeley National Laboratory | United States |
FE | Superconductivity and Quantum Materials | Mahmud | Khan | Miami University | United States |
FF | Magneto-Elastic and -Optical Phenomena | Radhika | Barua | Virginia Commonwealth University | United States |
FG | Ferrites, Garnets and Magneto-Dielectric Materials II | Chuanpu | Liu | Colorado State University | United States |
FP | Magneto-Elastic, -Optical and Other Phenomena II | Josep | Fontcuberta | ICMAB-CSIC | Spain |
FQ | Applications of Magnetic Nanoparticles in Biomedicine | Eduardo | De Lima Correa | National Institute of Standards and Technology | United States |
FR | Magnetics for Power Electronics and Control | Alexey | Kovalev | University of Nebraska-Lincoln | United States |
FS | Shielding, Levitation and Propulsion / Transformers and Inductors | Jang-Young | Choi | Chungnam National University | Korea (the Republic of) |
GA | SYMPOSIUM: Unconventional Spin-Orbit Torques in Ferromagnets, Ferrimagnets, and Antiferromagnets | Johan | Åkerman | University of Gothenburg | Sweden |
GB | Spin Hall and Spin-Orbit Torque II | Yongxi | Ou | The Pennsylvania State University | United States |
GC | Magnetic Recording | Simon | Greaves | Tohoku University | Japan |
GD | Amorphous and Nanocrystalline Soft Magnets II | Montserrat | Rivas | Universidad de Oviedo | Spain |
GE | Spin Dynamics | Martina | Ahlberg | University of Gothenburg | Sweden |
GF | Hard Magnetic Materials IV | Brian | Lejeune | Northeastern University | United States |
Wei | Tang | Ames Laboratory | United States | ||
GG | Soft Magnetic Crystalline Alloys | Cristina | Bran | Instituto de Ciencia de Materiales de Madrid | Spain |
TU | Tutorial: Towards 3D Nanomagnetism | Charudatta | Phatak | Argonne National Laboratory | United States |
YA | Evening Session 1: Magnetism in Nature and the Universe | Chris | Leighton | University of Minnesota | United States |
ZA | Evening Session 2: Roundtable Discussion on Advanced Magnetic Materials for Novel Computing Paradigms | Mark | Stiles | National Institute of Standards and Technology | United States |