The Net Advance of Physics:
TOPOLOGICAL MATTER

INSULATORS & SEMIMETALS: TOPOLOGICAL

• General:
  • The quantum spin Hall effect and topological insulators by Xiao-Liang Qi and Shou-Cheng Zhang [Physics Today 63, 33 (January 2010)]
  • Topological insulators and superconductors by Xiao-Liang Qi and Shou-Cheng Zhang [2010/08]
  • Three-Dimensional Topological Insulators by M. Zahid Hasan and Joel E. Moore [2010/11]
  • Transport in three-dimensional topological insulators: theory and experiment by Dimitrie Culcer [2011/08]
  • Topological Insulators with Ultracold Atoms by Indubala I Satija and Erhai Zhao [2012/01]
  • Spin-helical transport in normal and superconducting topological insulators by Grigory Tkachov and E. M. Hankiewicz [2012/08]
  • Topological insulators and thermoelectric materials by Lukas Müchler et al. [2012/09]
  • From the adiabatic theorem of quantum mechanics to topological states of matter by Jan Carl Budich and Björn Trauzettel [2012/10]
  • Three-dimensional topological insulators: A review on host materials by Wanxiang Feng and Yugui Yao [Science China (Physics, Mechanics, & Astronomy) 55, 1 (2012)]
  • Introduction to Topological Insulators by Hongming Weng et al. [Asia Pacific Physics Newsletter 1, 31 (2012)]
  • Crystal Structure and Chemistry of Topological Insulators by R. J. Cava et al. [2013/02]
  • Topological Insulator Materials by Yoichi Ando [2013/04]
  • Dirac Fermions in Solids - from High Tc cuprates and Graphene to Topological Insulators and Weyl Semimetals by Oskar Vafek and Ashvin Vishwanath [2013/06]
  • An Introduction to Topological Order in Insulators by Michel Fruchart and David Carpentier [2013/10]
  • Introduction to Dirac materials and topological insulators by Jerome Cayssol [2013/10]
  • Topological Insulators, Topological Crystalline Insulators, and Topological Kondo Insulators by M. Zahid Hasan et al. [2014/06]
  • Particle Physics and Condensed Matter: The Saga Continues by Frank Wilczek [2014/06]
  • Geometric Phases and Topological Effects by Yuriy Mokrousov and Frank Freimuth [2014/07]
  • Topology of Bands in Solids : From Insulators to Dirac Matter by David Carpentier [2014/08]
  • A short guide to topological terms in the effective theories of condensed matter by Akihiro Tanaka and Shintaro Takayoshi [Sci. Technol. Adv. Mater. 16, 4014404 (2015)]
  • Quantum Information Meets Quantum Matter -- From Quantum Entanglement to Topological Phase in Many-Body Systems by Bei Zeng et al. [2015/08] 349 pp.
  • A Short Course on Topological Insulators: Band-structure topology and edge states in one and two dimensions by J´nos K. Asbóth et al. [2015/09]
  • Topological Phases in Two-Dimensional Materials: A Brief Review by Yafei Ren et al. [Rep. Prog. Phys. 79, 066501 (2016)]
  • Colloquium: Topological Band Theory by Arun Bansil et al. [2016/03]
  • Why all the fuss about 2D semiconductors? by Andres Castellanos-Gomez [Nature Photonics 10, 202 (2016)]
  • A pedagogic review on designing model topological insulators by Tanmoy Das [2016/04]
  • Dirac and Weyl Materials: Fundamental Aspects and Some Spintronic Applications by Shengyuan A. Yang [2016/09]
  • Zoo of quantum-topological phases of matter by Xiao-Gang Wen [2016/10]
  • Emerging Trends in Topological Insulator and Topological Superconductor by Arijit Saha and Arun M. Jayannavar [2016/11]
  • Weyl Semimetals, Fermi Arcs and Chiral Anomalies by Shuang Jia et al. [Nature Materials 15, 1140 (2016)]
  • Weyl and Dirac Semimetals in Three Dimensional Solids by N. Peter Armitage et al. [2016/12]
  • Introduction to Topological Phases and Electronic Interactions in (2+1) Dimensions by Leandro O. Nascimento [2017/01]
  • Topological insulator materials for advanced optoelectronic devices by Zengji Yue et al. [2018/02]
  • Topological Insulators: A Review by R. Shankar [2018/04] 102 pp.
  • A Passage to Topological Matter by Kwon Park [Journal of the Korean Physical Society 73, 817 (2018)]
  • Topological Semimetals from First Principles by Heng Gao et al. [2018/10]
  • Novel Topological Insulators from Crystalline Symmetries by Alexander Lau and Carmine Ortix [2018/10]
  • Atoms to Topological Electronic Materials: A Bedtime Story for Beginners by Arnab Kumar Pariari [2019/05]
  • Topological States by Dimirie Culcer and Attila Geresdi [2019/07]
  • New quantum phases of matter: topological materials by V. Bhardwaj and R. Chatterjee [2020/03]

• General: Models: SSH:
  • Understanding Basic Concepts of Topological Insulators Through Su-Schrieffer-Heeger (SSH) Model by Navketan Batra and Goutam Sheet [2019/06]

• Type: COLD GASES:
  • Topological Quantum Matter with Ultracold Gases in Optical Lattices by Nathan Goldman et al. [Nature Physics 12, 639 (2016)]
  • Topological quantum matter with cold atoms by Dan-Wei Zhang et al. [2018/10]
  • Topological Gapless Matters in Three-Dimensional Ultracold Atomic Gases by Yong Xu [2018/12]
  • Recent developments in fractional Chern insulators by Z. Liu and E. J. Bergholtz [2022/08]

• Type: CRYSTALLINE:
  • Topological Crystalline Insulators and Topological Superconductors: From Concepts to Materials by Yoichi Ando and Liang Fu [2015/01]
  • Colloquium: Topological Band Theory by Arun Bansil et al. [2016/03]
  • Lecture Notes on Topological Crystalline Insulators by Titus Neupert and Frank Schindler [2017]

• Type: FLOQUET:
  • Floquet Engineering of Quantum Materials by Takashi Oka and Sota Kitamura [2018/04]
  • Topology and Broken Symmetry in Floquet Systems by Fenner Harper et al. [2019/05]
  • Floquet Topological Insulators: From Band Structure Engineering to Novel Non-Equilibrium Quantum Phenomena by Mark S. Rudner and Netanel H. Lindner [2019/09]
  • The Floquet Engineer's Handbook by M. S. Rudner and N. H. Linder [2020/03]
  • Moiré-Floquet engineering of quantum materials: A review by M. Rodriguez-Vega et al. [2020/11]

• Type: FRACTIONAL:
  • Fractional (Chern and topological) insulators by Titus Neupert et al. [2014/10]
  • Fractionalized Topological Insulators by Joseph Maciejko and Gregory A. Fiete [2015/05]
  • Fractional Topological Insulators -- a Pedagogical Review by Ady Stern [2015/09]
  • Recent developments in fractional Chern insulators by Z. Liu and E. J. Bergholtz [2022/08]

• Type: GAPLESS/INTERACTING:
  • Beyond Band Insulators: Topology of Semi-metals and Interacting Phases by Ari M. Turner and Ashvin Vishwanath [2013/01]
  • Interacting Topological Insulators: A Review by Stephan Rachel [2018/04]

• Type: HEUSLER:
  • Heusler, Weyl, and Berry by Kaustuv Manna et al. [2018/02]

• Type: HIGH ORDER:
  • Higher-Order Topological [Insulator] Systems by A. Saha and A. M. Jayannavar [2021/07]

• Type: KONDO:
  • Topological Insulators, Topological Crystalline Insulators, and Topological Kondo Insulators by M. Zahid Hasan et al. [2014/06]
  • Topological Kondo Insulators by Maxim Dzero et al. [2015/06]
  • Multipolar Order and Excitations in Rare-Earth Boride Kondo Systems by Peter Thalmeier et al. [2019/07]

• Type: LAYERED:
  • Experimental Progress on Layered Topological Semimetals by Junchao Ma et al. [2019/02]

• Type: MONOLAYER:
  • Monolayer Topological Insulators: Silicene, Germanene and Stanene by Motohiko Ezawa [2015/03]

• Type: NON-HERMITIAN:
  • Topological States of Non-Hermitian Systems by V. M. Martinez Alvarez et al. [2018/05]

• Type: OXIDES:
  • Topological Properties and Functionalities in Oxide Thin Films and Interfaces by Masaki Uchida and Masashi Kawasaki [Journal of Physics D 51, 143001 (2018)]

• Type: PHOTONIC:
  • Chirality in photonic systems by D. Solnyshkov and G. Malpuech [2016/06]
  • Microwave applications of photonic topological insulators by Shukai Ma and Steven M. Anlage [2020/03]

• Type: QUASI-CRYSTALLINE:
  • Topological states in quasicrystals by J.-H. Fan and H.-Q. Huang [2021/08]

• Type: TWO-DIMENSIONAL:
  • Progress on 2D topological insulators and potential applications in electronic devices by Y. Hou et al. [2020/08]

• Type: TYPE II METALS:
  • Type-II topological metals by S. Li et al. [2020/03]

• Type: WEYL:
  • Dirac Fermions in Solids - from High Tc cuprates and Graphene to Topological Insulators and Weyl Semimetals by Oskar Vafek and Ashvin Vishwanath [2013/06]
  • Dirac and Weyl Materials: Fundamental Aspects and Some Spintronic Applications by Shengyuan A. Yang [2016/09]
  • Weyl Semimetals, Fermi Arcs and Chiral Anomalies by Shuang Jia et al. [Nature Materials 15, 1140 (2016)]
  • Weyl and Dirac Semimetals in Three Dimensional Solids by N. Peter Armitage et al. [2016/12]
  • Weyl Metals by A. A. Burkov [2017/04]
  • Heusler, Weyl, and Berry by Kaustuv Manna et al. [2018/02]
  • Weyl Semimetals by Satyaki Kar and Arun M. Jayannavar [2019/02]
  • Topological States by Dimirie Culcer and Attila Geresdi [2019/07]
  • Review of experiments on the chiral anomaly in Dirac-Weyl semimetals by N. P. Ong and S. Liang [2020/10]

• Aspects: CHIRALITY:
  • Review of experiments on the chiral anomaly in Dirac-Weyl semimetals by N. P. Ong and S. Liang [2020/10]
  • Topology and chirality by C. Felser and J. Gooth [2021/07]
  • Topology of solitons and singular defects in chiral liquid crystals by J.-S. Wu and I. I. Smalyukh [2021/12]

• Aspects: PHASE TRANSITIONS:
  • Dynamical Phase Transitions in Topological Insulators by Nicholas Sedlmayr [2018/09]

• Aspects: PHOTOEMISSION:
  • Spin- and angle-resolved photoemission on topological materials by J. Hugo Dil [2018/12]

• Aspects: PHOTOGALVANIC EFFECT:
  • Spin-dependent photogalvanic effects: a review by E. L. Ivchenko and S. D. Ganichev [2017/10]

• Aspects: TRANSPORT:
  • Electronic Transport and Quantum Oscillation of Topological Semimetals by Jin Hu et al. [2019/04]
  • Transport in Two-Dimensional Topological Materials: Recent Developments in Experiment and Theory by Dimitrie Culcer et al. [2019/07]

• Re: AXIONS:
  • Topology and axions in QCD by M. P. Lombardo and A. Trunin [2020/05]
  • Axion electrodynamics in topological materials by A. Sekine and K. Nomura [2020/11]
  • Axion electrodynamics in topological insulators for beginners by J. Planelles [2021/11]

• Re: BERRY'S PHASE:
  • Heusler, Weyl, and Berry by Kaustuv Manna et al. [2018/02]
  • Lecture notes on Berry phases and topology [in non-interacting-electron systems] by B. Bradlyn and M. Iraola [2018]

• Re: CHEMISTRY:
  • Chemical Principles of Topological Semimetals by Leslie Schoop et al. [2018/04]

• Re: ENTANGLEMENT:
  • Entanglement in topological systems by Maria Hermanns [2017/02]

• Re: GLASSES:
  • Spin, Orbital, Weyl and Other Glasses in Topological Superfluids by G. E. Volovik et al. [2018/06]

• Re: MAGNETIC FIELD:
  • Quantum field theory in a magnetic field: From quantum chromodynamics to graphene and Dirac semimetals by Vladimir A. Miransky and Igor A. Shovkovy [2015/03]

• Re: MAGNETIC PROPERTIES:
  • Magnetic Susceptibility of Topological Semimetals by G.P. Mikitik and Yu. V. Sharlai [2019/03]
  • Topological insulators and semimetals in classical magnetic systems by Z.-X. Li et al. [2020/11]

• Re: NON-COMMUTATIVE GEOMETRY:
  • Topological insulators from the perspective of non-commutative geometry and index theory by Hermann Schulz-Baldes [2016/07]

• Type: PHOTONIC:
  • Notes on photonic topological insulators and scattering-protected edge states - a brief introduction by George W. Hanson et al. [2016/02]

• Re: PLASMONS:
  • Plasmonics in Dirac systems: from graphene to topological insulators by Tobias Stauber [2013/10]

  Re: QUANTUM CHROMODYNAMICS:

  • Topology and axions in QCD by M. P. Lombardo and A. Trunin [2020/05]

• Re: QUANTUM HALL EFFECT:
  • Quantum Anomalous Hall Effect in Time-Reversal-Symmetry Breaking Topological Insulators by Cui-Zu Chang and Mingda Li [2015/10]

• Re: SPINTRONICS:
  • Spintronics and Pseudospintronics in Graphene and Topological Insulators by D. A. Pesin and A. H. MacDonald [Nature Materials 11, 409 (2012)]

• Re: SUPERCONDUCTIVITY:
  • Topological insulators and superconductors by Xiao-Liang Qi and Shou-Cheng Zhang [2010/08]
  • Topological Crystalline Insulators and Topological Superconductors: From Concepts to Materials by Yoichi Ando and Liang Fu [2015/01]
  • Emerging Trends in Topological Insulator and Topological Superconductor by Arijit Saha and Arun M. Jayannavar [2016/11]
  • Exploring Topological Superconductivity in Topological Materials by Yupeng Li and Zhu-An Xu [Advanced Quantum Technologies 2019, 1800112 (2019)]

• Re: SUPERSYMMETRY:
  • Searching for Supersymmetry and its Avatars by John Ellis [2019/10]

• Re: SYMMETRIC SPACES:
  • Of symmetries, symmetry classes, and symmetric spaces: from disorder and quantum chaos to topological insulators by Martin R. Zirnbauer [Physik Journal 11, 41 (2012)]

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