Angle-Resolved Photoemission Spectroscopy Studies of 2D Material Heterostructures (eBook, PDF) - Wang, Eryin
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  • Format: PDF

This book focuses on angle-resolved photoemission spectroscopy studies on novel interfacial phenomena in three typical two-dimensional material heterostructures: graphene/h-BN, twisted bilayer graphene, and topological insulator/high-temperature superconductors. Since the discovery of graphene, two-dimensional materials have proven to be quite a large "family". As an alternative to searching for other family members with distinct properties, the combination of two-dimensional (2D) materials to construct heterostructures offers a new platform for achieving new quantum phenomena, exploring new…mehr

Produktbeschreibung
This book focuses on angle-resolved photoemission spectroscopy studies on novel interfacial phenomena in three typical two-dimensional material heterostructures: graphene/h-BN, twisted bilayer graphene, and topological insulator/high-temperature superconductors. Since the discovery of graphene, two-dimensional materials have proven to be quite a large "family". As an alternative to searching for other family members with distinct properties, the combination of two-dimensional (2D) materials to construct heterostructures offers a new platform for achieving new quantum phenomena, exploring new physics, and designing new quantum devices. By stacking different 2D materials together and utilizing interfacial periodical potential and order-parameter coupling, the resulting heterostructure's electronic properties can be tuned to achieve novel properties distinct from those of its constituent materials. This book offers a valuable reference guide for all researchers and students working in the area of condensed matter physics and materials science.

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Autorenporträt
Eryin Wang received his PHD in physics from Tsinghua University. During PHD, he utilized angle-resolved photoemission spectroscopy (ARPES) and nanospot ARPES to study the novel interfacial phenomena in 2D material heterostructures, including Bi2Se3/BSCCO and Graphene/h-BN. Now he is working in Max Planck Institute for the Structure and Dynamics of Matter as a receiver of Humboldt Research Fellowship. Currently, he is combining ultrafast transport and molecular beam epitaxy techniques to investigate the light-induced superconductivity in organic superconductor.