SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4386457262> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W4386457262 abstract "XY* transitions represent one of the simplest examples of unconventional quantum criticality, in which fractionally charged excitations condense into a superfluid and display novel features that combine quantum criticality and fractionalization. Nevertheless, their experimental realization is challenging. Here we propose to study the XY* transition in quantum Hall bilayers at filling (ν1,ν2)=(13,23) where the exciton condensate (EC) phase plays the role of the superfluid. Supported by exact diagonalization calculation, we argue that there is a continuous transition between an EC phase at small bilayer separation to a pair of decoupled fractional quantum Hall states at large separation. The transition is driven by condensation of a fractional exciton, a bound state of a Laughlin quasiparticle and quasihole, and is in the XY* universality class. The fractionalization is manifested by unusual properties including a large anomalous exponent and fractional universal conductivity, which can be conveniently measured through interlayer tunneling and counterflow transport, respectively. We also show that the edge is likely to realize the newly predicted extraordinary log boundary criticality. Our work highlights the promise of quantum Hall bilayers as an ideal platform for exploring exotic bulk and boundary critical behaviors that are amenable to immediate experimental exploration in dual-gated bilayer systems. The XY* critical theory can be generalized to a bilayer system with an arbitrary Abelian state in one layer and its particle-hole partner in the other layer. Therefore, we anticipate many distinct XY* transitions corresponding to the different Laughlin states and Jain sequences in the single-layer case.Received 28 March 2023Revised 20 June 2023Accepted 25 July 2023DOI:https://doi.org/10.1103/PhysRevX.13.031023Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI.Published by the American Physical SocietyPhysics Subject Headings (PhySH)Research AreasQuantum criticalityQuantum phase transitionsTopological phase transitionPhysical SystemsTwo-dimensional electron systemCondensed Matter, Materials & Applied Physics" @default.
W4386457262 created "2023-09-06" @default.
W4386457262 creator A5020715792 @default.
W4386457262 creator A5043780039 @default.
W4386457262 creator A5054190140 @default.
W4386457262 date "2023-09-05" @default.
W4386457262 modified "2023-10-05" @default.
W4386457262 title "XY* Transition and Extraordinary Boundary Criticality from Fractional Exciton Condensation in Quantum Hall Bilayer" @default.
W4386457262 cites W1542921455 @default.
W4386457262 cites W1547623014 @default.
W4386457262 cites W1963826472 @default.
W4386457262 cites W1964480277 @default.
W4386457262 cites W1967169297 @default.
W4386457262 cites W1967475705 @default.
W4386457262 cites W1968577746 @default.
W4386457262 cites W1971614498 @default.
W4386457262 cites W1972684301 @default.
W4386457262 cites W1983242552 @default.
W4386457262 cites W1986776689 @default.
W4386457262 cites W1988440731 @default.
W4386457262 cites W1988991229 @default.
W4386457262 cites W1993976918 @default.
W4386457262 cites W1995326714 @default.
W4386457262 cites W1999816716 @default.
W4386457262 cites W2001516805 @default.
W4386457262 cites W2007646873 @default.
W4386457262 cites W2033894386 @default.
W4386457262 cites W2034338911 @default.
W4386457262 cites W2037637640 @default.
W4386457262 cites W2039116655 @default.
W4386457262 cites W2039117387 @default.
W4386457262 cites W2043953989 @default.
W4386457262 cites W2046996400 @default.
W4386457262 cites W2051392931 @default.
W4386457262 cites W2059929193 @default.
W4386457262 cites W2060452254 @default.
W4386457262 cites W2067337806 @default.
W4386457262 cites W2073833897 @default.
W4386457262 cites W2074953341 @default.
W4386457262 cites W2076113490 @default.
W4386457262 cites W2080121543 @default.
W4386457262 cites W2082936430 @default.
W4386457262 cites W2084826615 @default.
W4386457262 cites W2086631671 @default.
W4386457262 cites W2086989136 @default.
W4386457262 cites W2087971605 @default.
W4386457262 cites W2088638203 @default.
W4386457262 cites W2109288718 @default.
W4386457262 cites W2122160419 @default.
W4386457262 cites W2141562470 @default.
W4386457262 cites W2156237537 @default.
W4386457262 cites W2162861329 @default.
W4386457262 cites W2172010347 @default.
W4386457262 cites W2208942173 @default.
W4386457262 cites W2507201359 @default.
W4386457262 cites W2525598928 @default.
W4386457262 cites W2526420179 @default.
W4386457262 cites W2526518998 @default.
W4386457262 cites W2605583763 @default.
W4386457262 cites W2620474357 @default.
W4386457262 cites W2733162654 @default.
W4386457262 cites W2963459164 @default.
W4386457262 cites W3022026775 @default.
W4386457262 cites W3086742070 @default.
W4386457262 cites W3101001549 @default.
W4386457262 cites W3105550669 @default.
W4386457262 cites W3113180363 @default.
W4386457262 cites W3114415471 @default.
W4386457262 cites W3119774682 @default.
W4386457262 cites W3178400006 @default.
W4386457262 cites W3216031933 @default.
W4386457262 cites W3216297445 @default.
W4386457262 cites W4200225696 @default.
W4386457262 cites W4315644814 @default.
W4386457262 doi "https://doi.org/10.1103/physrevx.13.031023" @default.
W4386457262 hasPublicationYear "2023" @default.
W4386457262 type Work @default.
W4386457262 citedByCount "0" @default.
W4386457262 crossrefType "journal-article" @default.
W4386457262 hasAuthorship W4386457262A5020715792 @default.
W4386457262 hasAuthorship W4386457262A5043780039 @default.
W4386457262 hasAuthorship W4386457262A5054190140 @default.
W4386457262 hasBestOaLocation W43864572621 @default.
W4386457262 hasConcept C115260700 @default.
W4386457262 hasConcept C121332964 @default.
W4386457262 hasConcept C136479403 @default.
W4386457262 hasConcept C145727058 @default.
W4386457262 hasConcept C149288129 @default.
W4386457262 hasConcept C17729963 @default.
W4386457262 hasConcept C185592680 @default.
W4386457262 hasConcept C192157962 @default.
W4386457262 hasConcept C200369452 @default.
W4386457262 hasConcept C25536358 @default.
W4386457262 hasConcept C26873012 @default.
W4386457262 hasConcept C41625074 @default.
W4386457262 hasConcept C54101563 @default.
W4386457262 hasConcept C55493867 @default.
W4386457262 hasConcept C62520636 @default.
W4386457262 hasConcept C66870719 @default.
W4386457262 hasConcept C68532491 @default.