FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3102178561> ?p ?o ?g. }

• W3102178561 abstract "In the absence of spin-orbit coupling, the conventional dogma of Anderson localization asserts that all states localize in two dimensions, with a glaring exception: the quantum Hall plateau transition (QHPT). In that case, the localization length diverges and interference-induced quantum-critical spatial fluctuations appear at all length scales. Normally QHPT states occur only at isolated energies; accessing them therefore requires fine-tuning of the electron density or magnetic field. In this paper we show that QHPT states can be realized throughout an energy continuum, i.e. as an energy stack of critical states wherein each state in the stack exhibits QHPT phenomenology. The stacking occurs without fine-tuning at the surface of a class AIII topological phase, where it is protected by U(1) and (anomalous) chiral or time-reversal symmetries. Spectrum-wide criticality is diagnosed by comparing numerics to universal results for the longitudinal Landauer conductance and wave function multifractality at the QHPT. Results are obtained from an effective 2D surface field theory and from a bulk 3D lattice model. We demonstrate that the stacking of quantum-critical QHPT states is a robust phenomenon that occurs for AIII topological phases with both odd and even winding numbers. The latter conclusion may have important implications for the still poorly-understood logarithmic conformal field theory believed to describe the QHPT." @default.
• W3102178561 created "2020-11-23" @default.
• W3102178561 creator A5003203707 @default.
• W3102178561 creator A5014169091 @default.
• W3102178561 creator A5080910212 @default.
• W3102178561 date "2020-05-01" @default.
• W3102178561 modified "2023-09-24" @default.
• W3102178561 title "Spectrum-Wide Quantum Criticality at the Surface of Class AIII Topological Phases: An “Energy Stack” of Integer Quantum Hall Plateau Transitions" @default.
• W3102178561 cites W1497430650 @default.
• W3102178561 cites W1509065769 @default.
• W3102178561 cites W1529091640 @default.
• W3102178561 cites W1642226763 @default.
• W3102178561 cites W1821170246 @default.
• W3102178561 cites W1824665345 @default.
• W3102178561 cites W1825085999 @default.
• W3102178561 cites W1904914631 @default.
• W3102178561 cites W1965319603 @default.
• W3102178561 cites W1967051601 @default.
• W3102178561 cites W196864112 @default.
• W3102178561 cites W1977568188 @default.
• W3102178561 cites W1988789751 @default.
• W3102178561 cites W1989945337 @default.
• W3102178561 cites W1991676553 @default.
• W3102178561 cites W1991678908 @default.
• W3102178561 cites W1994428540 @default.
• W3102178561 cites W1994577675 @default.
• W3102178561 cites W1998906317 @default.
• W3102178561 cites W2001171893 @default.
• W3102178561 cites W2003397144 @default.
• W3102178561 cites W2005275142 @default.
• W3102178561 cites W2005674785 @default.
• W3102178561 cites W2006835413 @default.
• W3102178561 cites W2010143175 @default.
• W3102178561 cites W2010699634 @default.
• W3102178561 cites W2010807655 @default.
• W3102178561 cites W2019313453 @default.
• W3102178561 cites W2020332193 @default.
• W3102178561 cites W2024461756 @default.
• W3102178561 cites W2024548889 @default.
• W3102178561 cites W2025901745 @default.
• W3102178561 cites W2027842404 @default.
• W3102178561 cites W2029133448 @default.
• W3102178561 cites W2030164271 @default.
• W3102178561 cites W2030332074 @default.
• W3102178561 cites W2032276957 @default.
• W3102178561 cites W2037063688 @default.
• W3102178561 cites W2038170282 @default.
• W3102178561 cites W2040377869 @default.
• W3102178561 cites W2041542071 @default.
• W3102178561 cites W2042144009 @default.
• W3102178561 cites W2042573422 @default.
• W3102178561 cites W2043429113 @default.
• W3102178561 cites W2049803877 @default.
• W3102178561 cites W2052518977 @default.
• W3102178561 cites W2056012463 @default.
• W3102178561 cites W2059954824 @default.
• W3102178561 cites W2061410496 @default.
• W3102178561 cites W2062488993 @default.
• W3102178561 cites W2064444197 @default.
• W3102178561 cites W2065324332 @default.
• W3102178561 cites W2067914836 @default.
• W3102178561 cites W2070090602 @default.
• W3102178561 cites W2076037500 @default.
• W3102178561 cites W2080142240 @default.
• W3102178561 cites W2083103382 @default.
• W3102178561 cites W2083423342 @default.
• W3102178561 cites W2085555273 @default.
• W3102178561 cites W2087266801 @default.
• W3102178561 cites W2087957535 @default.
• W3102178561 cites W2088485687 @default.
• W3102178561 cites W2091178433 @default.
• W3102178561 cites W2093840091 @default.
• W3102178561 cites W2098224813 @default.
• W3102178561 cites W2102074887 @default.
• W3102178561 cites W2110482505 @default.
• W3102178561 cites W2141374140 @default.
• W3102178561 cites W2141751902 @default.
• W3102178561 cites W2148601095 @default.
• W3102178561 cites W2172284591 @default.
• W3102178561 cites W2225035410 @default.
• W3102178561 cites W2256310722 @default.
• W3102178561 cites W2442236693 @default.
• W3102178561 cites W2499906541 @default.
• W3102178561 cites W2786698060 @default.
• W3102178561 cites W2805296116 @default.
• W3102178561 cites W3037850448 @default.
• W3102178561 cites W3099518748 @default.
• W3102178561 cites W3099835868 @default.
• W3102178561 cites W3100991671 @default.
• W3102178561 cites W3103364970 @default.
• W3102178561 cites W3104264538 @default.
• W3102178561 cites W3105728048 @default.
• W3102178561 cites W3106103135 @default.
• W3102178561 cites W3154325572 @default.
• W3102178561 cites W326669990 @default.
• W3102178561 doi "https://doi.org/10.1103/physrevx.10.021025" @default.
• W3102178561 hasPublicationYear "2020" @default.
• W3102178561 type Work @default.
• W3102178561 sameAs 3102178561 @default.
• W3102178561 citedByCount "12" @default.

• next