Rich Quasiparticle Properties In Layered Graphene-related Systems

Name: Rich Quasiparticle Properties In Layered Graphene-related Systems
Brand: World Scientific Publishing Co Pte Ltd
SKU: 9789811277788
Price: 167.4 EUR
Availability: InStock

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€167.40

Product variants

A01=Chih-wei Chiu

A01=Ching-hong Ho

A01=Chiun-yan Lin

A01=Hsien-ching Chung

A01=Lu-yao Wang

A01=Ming-fa Lin

Age Group_Uncategorized

Author_Chih-wei Chiu

Author_Ching-hong Ho

Author_Chiun-yan Lin

Author_Hsien-ching Chung

Author_Lu-yao Wang

Author_Ming-fa Lin

automatic-update

Category1=Non-Fiction

Category=PHFC

Charge Density Waves

COP=Singapore

Coulomb Excitations

Crystal Symmetries

Delivery_Delivery within 10-20 working days

eq_isMigrated=2

eq_non-fiction

eq_science

Friedel Oscillations

Generalized Tight-Binding Model

Graphene-Related Materials

Language_English

Magnetic Quantization

Many-Particle Effects

Optical Reflection/Transmission Spectra

PA=Available

Price_€100 and above

PS=Active

Quasiparticle

Quasiparticle Topology

Response Theory

softlaunch

Topological Protection

Product details

ISBN 9789811277788
Publication Date: 31 Jan 2024
Publisher: World Scientific Publishing Co Pte Ltd
Publication City/Country: SG
Product Form: Hardback
Language: English

Delivery/Collection within 10-20 working days

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This comprehensive book delves into the fascinating world of quasiparticle properties of graphene-related materials. The authors thoroughly explore the intricate effects of intrinsic and extrinsic interactions on the material's properties, while unifying the single-particle and many-particle properties through the development of a theoretical framework. The book covers a wide range of research topics, including long-range Coulomb interactions, dynamic charge density waves, Friedel oscillations and plasmon excitations, as well as optical reflection and transmission spectra of thin films. Also it highlights the crucial roles of inelastic Coulomb scattering and optical scattering in the quasiparticle properties of layered systems, and the impact of crystal symmetry, number of layers, and stacking configuration on their uniqueness. Furthermore, the authors explore the topological properties of quasiparticles, including 2D time-reversal-symmetry protected topological insulators with quantum spin Hall effect, and rhombohedral graphite with Dirac nodal lines. Meanwhile, the book examines the gate potential application for creating topological localized states and shows topological invariants of 2D Dirac fermions, and binary Z2 topological invariants under chiral symmetry. The calculated results are consistent with the present experimental observations, establishing it as a valuable resource for individuals interested in the quasiparticle properties of novel materials.