TY - UNPB
T1 - Roadmap on Quantum Magnetic Materials
AU - Grubišić-Čabo, Antonija
AU - Guimarães, Marcos H. D.
AU - Afanasiev, Dmytro
AU - Aguilar, Jose H. Garcia
AU - Aguilera, Irene
AU - Ali, Mazhar N.
AU - Bhattacharyya, Semonti
AU - Blanter, Yaroslav M.
AU - Bosma, Rixt
AU - Cheng, Zhiyuan
AU - Dan, Zhiying
AU - Dash, Saroj P.
AU - Dueñas, Joaquín Medina
AU - Fernandez-Rossier, Joaquín
AU - Gibertini, Marco
AU - Grytsiuk, Sergii
AU - Houmes, Maurits J. A.
AU - Isaeva, Anna
AU - Knekna, Chrystalla
AU - Kole, Arnold H.
AU - Kurdi, Samer
AU - Lado, Jose
AU - Mañas-Valero, Samuel
AU - Lopes, J. Marcelo J.
AU - Marian, Damiano
AU - Na, Mengxing
AU - Pabst, Falk
AU - Pierantoni, Sergio Barquero
AU - Regout, Mexx
AU - Reho, Riccardo
AU - Rösner, Malte
AU - Sanz, David
AU - van der Sar, Toeno
AU - Sławińska, Jagoda
AU - Verstraete, Matthieu J.
AU - Waseem, Muhammad
AU - van der Zant, Herre S. J.
AU - Zanolli, Zeila
AU - Soriano, David
N1 - 87 pages, 24 figures. Roadmap based on the discussions during the workshop on Quantum Magnetic Materials hosted by the Lorentz Centre in Leiden, the Netherlands (Oct. 2023)
PY - 2024/12/23
Y1 - 2024/12/23
N2 - Fundamental research on two-dimensional (2D) magnetic systems based on van der Waals materials has been gaining traction rapidly since their recent discovery. With the increase of recent knowledge, it has become clear that such materials have also a strong potential for applications in devices that combine magnetism with electronics, optics, and nanomechanics. Nonetheless, many challenges still lay ahead. Several fundamental aspects of 2D magnetic materials are still unknown or poorly understood, such as their often-complicated electronic structure, optical properties, and magnetization dynamics, and their magnon spectrum. To elucidate their properties and facilitate integration in devices, advanced characterization techniques and theoretical frameworks need to be developed or adapted. Moreover, developing synthesis methods which increase critical temperatures and achieve large-scale, high-quality homogeneous thin films is crucial before these materials can be used for real-world applications. Therefore, the field of 2D magnetic materials provides many challenges and opportunities for the discovery and exploration of new phenomena, as well as the development of new applications. This Roadmap presents the background, challenges, and potential research directions for various relevant topics in the field on the fundamentals, synthesis, characterization, and applications. We hope that this work can provide a strong starting point for young researchers in the field and provide a general overview of the key challenges for more experienced researchers.
AB - Fundamental research on two-dimensional (2D) magnetic systems based on van der Waals materials has been gaining traction rapidly since their recent discovery. With the increase of recent knowledge, it has become clear that such materials have also a strong potential for applications in devices that combine magnetism with electronics, optics, and nanomechanics. Nonetheless, many challenges still lay ahead. Several fundamental aspects of 2D magnetic materials are still unknown or poorly understood, such as their often-complicated electronic structure, optical properties, and magnetization dynamics, and their magnon spectrum. To elucidate their properties and facilitate integration in devices, advanced characterization techniques and theoretical frameworks need to be developed or adapted. Moreover, developing synthesis methods which increase critical temperatures and achieve large-scale, high-quality homogeneous thin films is crucial before these materials can be used for real-world applications. Therefore, the field of 2D magnetic materials provides many challenges and opportunities for the discovery and exploration of new phenomena, as well as the development of new applications. This Roadmap presents the background, challenges, and potential research directions for various relevant topics in the field on the fundamentals, synthesis, characterization, and applications. We hope that this work can provide a strong starting point for young researchers in the field and provide a general overview of the key challenges for more experienced researchers.
KW - cond-mat.mtrl-sci
KW - cond-mat.mes-hall
U2 - 10.48550/arXiv.2412.18020
DO - 10.48550/arXiv.2412.18020
M3 - Voordruk
BT - Roadmap on Quantum Magnetic Materials
ER -