Some of the most renowned thought leaders in the area of spintronics include Albert Fert, Tomas Jungwirth, Stefano Sanvito, Vincent Baltz, Gen Tatara, Sandeep Kumar, Irene D'Amico, Olena Gomonay, Felix Buot , and Wenqing Liu. Below is a complete listing for each professional.
#1: WENQING LIU
Email: Wenqing.Liu@rhul.ac.uk
Website: Link to her official profile at the University of London
Brief resume: Wenqing Liu is a Reader and Head in Nano-Electronics at the Royal Holloway
Email: Wenqing.Liu@rhul.ac.uk
Website: Link to her official profile at the University of London
Brief resume: Wenqing Liu is a Reader and Head in Nano-Electronics at the Royal Holloway
University of London, United Kingdom. Her research focuses on spintronics and condensed matter . She is also the Director of Research and Chair of the departmental research committee.
She has numerous publications in high-impact journals such as "Hybridspintronic materials: Growth, structure, and properties" and a recent book titled "Spintronic 2D Materials."
She has numerous publications in high-impact journals such as "Hybrid
#2: GEN TATARA
Email: gen.tatara@riken.jp
Website and research profile link.
Brief resume: He is the team leader, Spin PhysicsTheory Research Team at RIKEN Center for
Email: gen.tatara@riken.jp
Brief resume: He is the team leader, Spin Physics
Emergent Matter Science. His research focuses on the development of spintronics technology using spin electrons and realization of ultrafast and high-density information technology with low energy consumption.
He has numerous research articles and recently was the lead author on the published paper titled "Effective gauge field theory of spintronics ."
#3: VINCENT BALTZ
Email: vincent.baltz@cea.fr
Website: Link to his official profile at SPINTEC
Brief resume: Vincent Baltz is a research scientist at SPINTEC a leadingspintronics research laboratory. His research focuses on materials for spintronic devices, specifically on two distinct aspects involving antiferromagnetic materials: ferromagnet/antiferromagnet exchange bias interactions and spin-dependent transport in antiferromagnets .
He was the lead author in one of his most cited publications titled "Antiferromagneticspintronics ."
Email: vincent.baltz@cea.fr
Website: Link to his official profile at SPINTEC
Brief resume: Vincent Baltz is a research scientist at SPINTEC a leading
He was the lead author in one of his most cited publications titled "Antiferromagnetic
#4: SANDEEP KUMAR
Email: skumar@engr.ucr.edu
Website: Link to his University of California profile
Brief resume: Sandeep Kumar is an Assistant Professor at the University of California. He is also a principal Investigator focusing on aspects such as spin mediated thermal transport in semiconductors, spin-hall effect and emergent behavior, and spin mediated thermal energy conversion, advances inspintronics technology among others.
Email: skumar@engr.ucr.edu
Website: Link to his University of California profile
Brief resume: Sandeep Kumar is an Assistant Professor at the University of California. He is also a principal Investigator focusing on aspects such as spin mediated thermal transport in semiconductors, spin-hall effect and emergent behavior, and spin mediated thermal energy conversion, advances in
He co-authored an article titled "Spin-Driven Emergent Antiferromagnetism and Metal-Insulator Transition in Nanoscale p-Si ." Some of his other notable publications include "Spin phonon interactions and magneto-thermal transport behavior in p-Si " and "Spin-Hall effect and emergent antiferromagnetic phase transition in n-Si."
#5: IRENE D'AMICO
Email: irene.damico@york.ac.uk
Website: Link to her University of York profile
Brief resume: Prof. Irene D'Amico is a professor at the University of York with expertise in spintronics, quantum information/computation,nanostructures , and semiconductors.
She was the lead author in a recently published paper demonstrating new concepts inspintronics titled "Chirality and intrinsic dissipation of spin modes in two-dimensional electron liquids."
Email: irene.damico@york.ac.uk
Website: Link to her University of York profile
Brief resume: Prof. Irene D'Amico is a professor at the University of York with expertise in spintronics, quantum information/computation,
She was the lead author in a recently published paper demonstrating new concepts in
#6: STEFANO SANVITO
Email: stefano.sanvito@tcd.ie
Website and profile link.
Brief resume: Professor Stefano Sanvito is the current chair of the Computational Spintronics Group, which develops new algorithms for materials and device modeling and applies them to problems underpinning information technology. He is also the chair of Director of the Center for Research on Adaptive Nanostructures and Nanodevices (CRANN) and the Condensed Matter Theory at Trinity College Dublin.
Email: stefano.sanvito@tcd.ie
Brief resume: Professor Stefano Sanvito is the current chair of the Computational Spintronics Group, which develops new algorithms for materials and device modeling and applies them to problems underpinning information technology. He is also the chair of Director of the Center for Research on Adaptive Nanostructures and Nanodevices (CRANN) and the Condensed Matter Theory at Trinity College Dublin.
He is renowned for the development of the Smeagol code and has also won international awards related to his research.
#7: OLENA V. GOMONAY
Email: ogomonay@uni-mainz.de
Website link .
Brief resume: Professor Olena Gomonay is a scientific researcher at SPICE-INSPIRE group, Germany. Her research interests focus onspintronics of antiferromagnets , spin-transport in multilayers , and nonequilibrium magnetic dynamics of antiferromagnets among others.
She was the lead author in a published paper titled "Concepts ofantiferromagnetic spintronics ."
Email: ogomonay@uni-mainz.de
Brief resume: Professor Olena Gomonay is a scientific researcher at SPICE-INSPIRE group, Germany. Her research interests focus on
She was the lead author in a published paper titled "Concepts of
#8: FELIX BUOT
Email: fbuot@gmu.edu
Website: Link to his profile at George Mason University.
Brief resume: He is an Affiliate Research Professor at George Mason University, Center for Computational Materials Science. His research interests includenonequilibrium quantum super-field theoretical techniques in nanoscience , nanoelectronics , and spintronics , Kapitza resistance, nano-devices, and quantum computing topological insulators/superconductors, among others.
Email: fbuot@gmu.edu
Website: Link to his profile at George Mason University.
Brief resume: He is an Affiliate Research Professor at George Mason University, Center for Computational Materials Science. His research interests include
He was the lead author in a recently published paper that provides approximations of the quantum simulations of spintronics devices titled "Generalized nonequilibrium quantum transport of spin and pseudospins : Entanglements and topological phases."
#9: ALBERT FERT
Email: albert.fert@thalesgroup.com
Website and profile at CNRS/Thales
Brief resume: He is an Emeritus Professor of Physics at Université Paris-Sud and Scientific Director at Unité Mixte de Physique CNRS-Thales. He was awarded the 2007 Nobel Prize in Physics for the discovery of Giant Magnetoresistance (GMR), recognized as the birth ofspintronics and other research fields.
Email: albert.fert@thalesgroup.com
Brief resume: He is an Emeritus Professor of Physics at Université Paris-Sud and Scientific Director at Unité Mixte de Physique CNRS-Thales. He was awarded the 2007 Nobel Prize in Physics for the discovery of Giant Magnetoresistance (GMR), recognized as the birth of
He has numerous publications with high impact scores and citations and he was the lead author in a recently published paper titled "Spintronics, from giant magnetoresistance to magnetic skyrmions and topological insulators spintronique , de la magnétorésistance géante aux skyrmions magnétiques et isolants topologiques ."
#10: TOMAS JUNGWIRTH
Email: tomas.jungwirth@nottingham.ac.uk (Source 22).
Website and profile at the University of Nottingham (Source 22).
Brief resume: He is with the Department of Spintronics and Nanoelectronics Institute of Physics, Academy of Sciences of the Czech Republic and a Professor at the University of Nottingham. His research interests include electronic properties of semiconductor heterostructures and nanostructures, metal and semiconductor spintronics, carrier-induce ferromagnetism in diluted magnetic semiconductors, and quantum, anomalous, and spin Hall effects.
He was the lead author in a published paper titled "The multiple directions ofantiferromagnetic spintronics ."
Email: tomas.jungwirth@nottingham.ac.uk (Source 22).
Brief resume: He is with the Department of Spintronics and Nanoelectronics Institute of Physics, Academy of Sciences of the Czech Republic and a Professor at the University of Nottingham. His research interests include electronic properties of semiconductor heterostructures and nanostructures, metal and semiconductor spintronics, carrier-induce ferromagnetism in diluted magnetic semiconductors, and quantum, anomalous, and spin Hall effects.
He was the lead author in a published paper titled "The multiple directions of