\begin{document}$ D_{4h}$\end{document} point group. Section (3) gives an introduction to iron-based superconductors (FeSCs) and discuss the uniaxial-pressure detwinning method and related research progress. Section (4) introduce the establishment of the elastoresistance as a probe of the nematic susceptibility and discuss the key research works in this direction. Section (5) describes the research progress on the effects of uniaxial strain on superconductivity and nematicity. In sections (4) and (5), key experimental techniques, such as elastoresistance are discussed in detail. Section (6) expands the discussion to several class of quantum materials suitable for uniaxial-strain tuning method beyond the FeSCs. Finally, we give an brief summary and perspective to the uniaxial strain tuning technique. Overall, this review article aims to serve as a valuable resource for the beginners in the field of FeSC and those who are interested in using uniaxial strain to tune the electronic properties of quantum materials. By summarizing recent advancements and experimental techniques, this review hopes to inspire further research and innovation in studying correlated electron materials under uniaxial strain."> - 必威体育下载

Search

Article

x

留言板

姓名
邮箱
手机号码
标题
留言内容
验证码

downloadPDF
Citation:

Li Chun-Yi, Mo Zi-Ye, Lu Xing-Ye
PDF
HTML
Get Citation
Metrics
  • Abstract views:185
  • PDF Downloads:9
  • Cited By:0
Publishing process
  • Available Online:04 September 2024

    返回文章
    返回