JPhysD研究路线图|超材料理论、建模和设计路线图

08 Jul 2025 gabriels
This Roadmap surveys the diversity of different approaches for characterising, modelling and designing metamaterials. It contains articles covering the wide range of physical settings in which metamaterials have been realised, from acoustics and electromagnetics to water waves and mechanical systems. In doing so, we highlight synergies between the many different physical domains and identify commonality between the main challenges. The articles also survey a variety of different strategies and philosophies, from analytic methods such as classical homogenisation to numerical optimisation and data-driven approaches. We highlight how the challenging and many-degree-of-freedom nature of metamaterial design problems call for techniques to be used in partnership, such that physical modelling and intuition can be combined with the computational might of modern optimisation and machine learning to facilitate future breakthroughs in the field.


文章介绍

Roadmap on metamaterial theory, modelling and design

Bryn Davies, Stefan Szyniszewski, Marcelo A Dias, Leo de Waal, Anastasia Kisil, Valery P Smyshlyaev, Shane Cooper, Ilia V Kamotski, Marie Touboul, Richard V Craster, James R Capers, Simon A R Horsley, Robert W Hewson, Matthew Santer, Ryan Murphy, Dilaksan Thillaithevan, Simon J Berry, Gareth J Conduit, Jacob Earnshaw, Nicholas Syrotiuk, Oliver Duncan, Łukasz Kaczmarczyk, Fabrizio Scarpa, John B Pendry, Marc Martí-Sabaté, Sébastien Guenneau, Daniel Torrent, Elena Cherkaev, Niklas Wellander, Andrea Alù, Katie H Madine, Daniel J Colquitt, Ping Sheng, Luke G Bennetts, Anastasiia O Krushynska, Zhaohang Zhang, Mohammad J Mirzaali and Amir Zadpoor

通讯作者:

  • Bryn Davies,英国华威大学/英国帝国理工学院

期刊介绍

Journal of Physics D: Applied Physics

  • 2024年影响因子:3.2  Citescore:6.4
  • Journal of Physics D: Applied PhysicsJPhysD,《物理学报D:应用物理》)发表应用物理各领域的前沿研究和综述,具体包括:应用磁学和磁性材料、半导体和光子学、低温等离子体和等离子表面相互作用、凝聚态物理、表面科学和纳米结构、生物物理以及能源等六个领域。文章类型包括原创性论文、研究路线图、通讯以及每年针对热点研究的专题综述和特刊。