Valleytronics in 2D Materials Roadmap
Abstrak
Valleytronics exploits non-equivalent energy extrema in the electronic band structure of crystalline solids -- the valley degree of freedom -- to encode, manipulate, and read out information. The advent of 2D materials, first graphene and then transition-metal dichalcogenides, made valley control practical through optical, electrical, and magnetic routes. This foundation has enabled remarkable progress in recent years spanning established frontiers, such as valley exciton physics and valley Hall effects, as well as emerging directions including lightwave valleytronics, nanophotonic integration, flat-band valleytronics, and spin-valley qubits. In parallel, there are sustained efforts to scale up valleytronic materials and to predict new valleytronic platforms. This Roadmap brings together perspectives from leading experts to chart the key opportunities and challenges at the forefront of 2D material valleytronics. Each section captures a snapshot of progress in a key research area, identifies critical open challenges, and outlines pathways toward future valleytronics breakthroughs.
Topik & Kata Kunci
Penulis (33)
Kyle L. Seyler
Giancarlo Soavi
Bent Weber
Sunit Das
Amit Agarwal
Ioannis Paradisanos
Mikhail M. Glazov
Oleg Dogadov
Francesco Gucci
Giulio Cerullo
Stefano Dal Conte
Shubhadeep Biswas
Jan Wilhelm
Igor Žutić
Konstantin S. Denisov
Tong Zhou
Huiyuan Zheng
Wang Yao
Hongyi Yu
Ting Cao
Dacen Waters
Matthew Yankowitz
Guido Burkard
Artem Denisov
Thomas Ihn
Klaus Ensslin
Louis Gaudreau
Justin Boddison-Chouinard
Zlata Fedorova
Isabelle Staude
Kuan Eng Johnson Goh
Zhichao Zhou
Xiao Li
Akses Cepat
- Tahun Terbit
- 2026
- Bahasa
- en
- Sumber Database
- arXiv
- Akses
- Open Access ✓