Mottness, phase string, and high-T _c superconductivity

Abstract: It is a great discovery in physics of the twentieth century that the elementary particles in Nature are dictated by gauge forces, characterized by a nonintegrable phase factor \cite{Yang1974} that an elementary particle of charge $q$ acquires from A to B points: \begin{equation} P \exp \left( i \frac q {\hbar c}\int_A^B A_{\mu}dx^{\mu}\right) \label{nonit} \end{equation} where $A_{\mu}$ is the gauge potential and $P$ stands for path ordering. In a many-body system of strongly correlated electrons, if the so-ca… Show more

“…[4] Besides the exploration of new superconducting materials, intensive experimental and theoretical investigations have been performed in order to unveil the mysterious pairing mechanisms of high-temperature superconductivity. [5][6][7][8][9][10] Despite the fact that significant progress has been achieved in the exploration of hightemperature superconducting mechanisms, the physical nature of the driving forces causing two electrons to form a superconducting pair is still under debate. Scientists are now eagerly expecting to discover a new family of high-temperature superconducting materials, which would greatly contribute to the final establishment of high-temperature superconducting mechanisms.…”

Enhanced conductivity and weakened magnetism in Pb-doped Sr₂IrO₄

“…[4] Besides the exploration of new superconducting materials, intensive experimental and theoretical investigations have been performed in order to unveil the mysterious pairing mechanisms of high-temperature superconductivity. [5][6][7][8][9][10] Despite the fact that significant progress has been achieved in the exploration of hightemperature superconducting mechanisms, the physical nature of the driving forces causing two electrons to form a superconducting pair is still under debate. Scientists are now eagerly expecting to discover a new family of high-temperature superconducting materials, which would greatly contribute to the final establishment of high-temperature superconducting mechanisms.…”

Enhanced conductivity and weakened magnetism in Pb-doped Sr₂IrO₄

“…The antiferromagnetically ordered phase, superconducting phase, and the Femi liquid phase may be regarded as the low temperature instabilities of such a parent state at different doping regimes. [1] Pan et al summarize recent developments in model design and computation solutions based on quantum Monte Carlo approaches for a few representative quantum many-body systems, including non-Fermi-liquid and SYK quantum critical metals, magic angle twisted bilayer graphene, and other moiré superlattices. [2] Xu et al review recent computational studies on magnetism and ferroelectricity.…”

Editorial: Celebrating the 30 Wonderful Year Journey of Chinese Physics B