The Net Advance of Physics

The Net Advance of Physics:
UNCONVENTIONAL SUPERCONDUCTIVITY

UNCONVENTIONAL SUPERCONDUCTORS:

General: Maple 98/02; Marston 99/04; Baskaran 99/06; Tremblay et al. 2000/05; Carlson et al. 2002/06; Hott 2003/06a; Lee et al. 2004/04;
- High temperature superconductivity: from complexity to simplicity by Sudip Chakravarty [Science 319, 735 (2008)]
- The Challenge of Unconventional Superconductivity by Michael R. Norman [Science 332, 196 (2011)]
- Unconventional Superconductivity by Michael R. Norman [2013/02]
- Strongly Correlated Electrons in Solids by Henri Alloul [Scholarpedia 9, 32067 (2014)]
- Materials Design for New Superconductors by Michael R. Norman [2016/01]
- Unconventional Superconductivity by G. R. Stewart [2017/05]
- High-Temperature Superconductors: Underlying Physics and Applications by A. Bussmann-Holder and H. Keller [2019/11]
General: Applications: Hott 2003/06a; Hott 2003/06b;
- High-Temperature Superconductors: Underlying Physics and Applications by A. Bussmann-Holder and H. Keller [2019/11]
General: Models: BOSON-FERMION: Ren 98/11;
Type: CHROMIUM-BASED:
- A Brief Review on Muon Spin Relaxation/Rotation Studies of Unconventional Fe- and Cr-Based Superconductors by A. Bhattacharyya et al. [Science China: Physics, Mechanics and Astronomy 61, 127402 (2018)]
Type: CUPRATE:
- Cuprates - An Overview by Michael R. Norman [2011/08]
- Unconventional Superconductivity by Michael R. Norman [2013/02]
- Dirac Fermions in Solids - from High Tc cuprates and Graphene to Topological Insulators and Weyl Semimetals by Oskar Vafek and Ashvin Vishwanath [2013/06]
- High Temperature Superconductivity in the Cuprates by B. Keimer et al. [2014/09]
- Cuprate High Temperature Superconductors by Roland Hott and Thomas Wolf [2015/02]
- Hole-Doped Cuprate High Temperature Superconductors by C. W. Chu et al. [2015/02]
- Quantum Oscillations in Hole-Doped Cuprates by Suchitra E. Sebastian and C. Proust [Annual Reviews of Condensed Matter Physics 6, 411 (2015)]
- The Memory Function Formalism: A Review by Komal Kumari and Navinder Singh [2017/11]
- The remarkable underlying ground states of cuprate superconductors by Cyril Proust and Louis Taillefer [2018/07]
- The Strange Metal State of the Electron-Doped Cuprates by Richard L. Greene et al. [2019/05]
- A short review of recent progress in the study of cuprate superconductivity by T. Li [2021/03]
- Superconductivity from charge order in cuprates by J. M. Tranquada et al. [2021/07]
- The Gor'kov--Teitel'baum thermal-activation model for cuprates by N. Singh [2024/04]
Type: d-WAVE: Lofwander et al. 2001/02;
Type: HEAVY FERMION:
- Unconventional Superconductivity by Michael R. Norman [2013/02]
Type: HETEROSTRUCTURES:
- Conduction electrons in acceptor-doped GaAs/GaAlAs heterostructures: a review by Wlodek Zawadzki et al. [Semicond. Sci. Technol. 31, 053001 (2016)]
- Quantum-Matter Heterostructures by Hans Boschker and Jochen Mannhart [Annual Review of Condensed Matter Physics 8, 145 (2017)]
Type: HYDRIDES:
- The Search for Superconductivity in High Pressure Hydrides by Tiange Bi et al. [2018/06]
Type: IRON-BASED:
- To What Extent Iron-Pnictide New Superconductors Have Been Clarified: A Progress Report by Kenji Ishida et al. [J. Phys. Soc. Japan 78, 062001 (2009)]
- Superconductivity in Iron Compounds by G. R. Stewart [2011/06]
- Unconventional Superconductivity by Michael R. Norman [2013/02]
- A review of two-band superconductivity: materials and effects on the thermodynamic and reversible mixed-state properties by Martin Zehetmayer [Supercond. Sci. Technol. 26, 043001 (2013)]
- Fe-based superconductors: seven years later by Andrey V. Chubukov and P. J. Hirschfeld [2014/12]
- Iron-Based Superconductors: current status of materials and pairing mechanism by Hideo Hosono and Kazuhiko Kuroki [2015/04]
- Iron-based superconductors by Henri Alloul and Andres Cano [ Comptes Rendus Physique 17, 1 (2016)]
- High Temperature Superconductivity in Iron Pnictides and Chalcogenides by Qimiao Si et al. [Nature Reviews Materials 1, 16017 (2016)]
- Unconventional superconductors: Iron-based diversity by Anna Böhmer and Andreas Kreyssig [2016/12] In German.
- The Memory Function Formalism: A Review by Komal Kumari and Navinder Singh [2017/11]
- A Brief Review on Muon Spin Relaxation/Rotation Studies of Unconventional Fe- and Cr-Based Superconductors by A. Bhattacharyya et al. [Science China: Physics, Mechanics and Astronomy 61, 127402 (2018)]
Type: NON-LINEAR: Re: SPIN FLUCTUATIONS: Mourachkine 2001/06;
Type: NON-OXIDE: Buzea and Yamashita 2001/08;
Type: TWO BAND: Angst and Puzniak 2003/05;
- A review of two-band superconductivity: materials and effects on the thermodynamic and reversible mixed-state properties by Martin Zehetmayer [Supercond. Sci. Technol. 26, 043001 (2013)]
Aspects: VORTEX DYNAMICS;
Aspects: ELECTRONIC PROPERTIES: Norman and Pepin 2003/02;
Aspects: PSEUDOGAP: Timusk and Statt 99/05;
Aspects: SPIN FLUCTUATIONS: Mason 98/12;
Re: ANDREEV REFLECTION: Lofwander et al. 2001/02;
Re: ARPES: Damascelli et al. 2002/08;
Re: CLAUSIUS-MOSSOTTI APPROXIMATION:
- Clausius-Mossotti approximation in the theory of polar materials by Yuri Kornyushin [Ceramics International 29, 333 (2003)]
Re: EFFECTIVE FIELD THEORY: RENORMALIZATION: Campbell-Smith and Mavromatos 98/10;
Re: MAJORANA FERMIONS:
- Search for Majorana fermions in superconductors by C. W. J. Beenakker [2011/12]
- New directions in the pursuit of Majorana fermions in solid state systems by Jason Alicea [2012/02]
- Introduction to topological superconductivity and Majorana fermions by Martin Leijnse and Karsten Flensberg [2012/06]
- Unconventional Superconductivity by Michael R. Norman [2013/02]
Re: POLARONS:
- Spin polarons and high-Tc superconductivity by A. L. Chernyshev and R. F. Wood [2002/08]
Re: STRIPES:
- Stripes and Superconductivity in Cuprates by John M. Tranquada [2011/11]
- Stripes in cuprate superconductors: Excitations and dynamic dichotomy by Goetz Seibold et al. [2012/02]
- Superconductivity from charge order in cuprates by J. M. Tranquada et al. [2021/07]

THE NET ADVANCE OF PHYSICS