SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2023187748> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2023187748 abstract "Magnetization processes of spin-$1/2$ layered triangular-lattice antiferromagnets (TLAFs) under a magnetic field $H$ are studied by means of a numerical cluster mean-field method with a scaling scheme. We find that small antiferromagnetic couplings between the layers give rise to several types of extra quantum phase transitions among different high-field coplanar phases. Especially, a field-induced first-order transition is found to occur at $Hensuremath{approx}0.7{H}_{s}$, where ${H}_{s}$ is the saturation field, as another common quantum effect of ideal TLAFs in addition to the well-established one-third plateau. Our microscopic model calculation with appropriate parameters shows excellent agreement with experiments on ${mathrm{Ba}}_{3}{mathrm{CoSb}}_{2}{mathrm{O}}_{9}$ [T. Susuki et al., Phys. Rev. Lett. 110, 267201 (2013)]. Given this fact, we suggest that the ${mathrm{Co}}^{2+}$-based compounds may allow for quantum simulations of intriguing properties of this simple frustrated model, such as quantum criticality and supersolid states." @default.
W2023187748 created "2016-06-24" @default.
W2023187748 creator A5059553178 @default.
W2023187748 creator A5073372666 @default.
W2023187748 creator A5078831605 @default.
W2023187748 date "2015-01-16" @default.
W2023187748 modified "2023-10-17" @default.
W2023187748 title "Microscopic Model Calculations for the Magnetization Process of Layered Triangular-Lattice Quantum Antiferromagnets" @default.
W2023187748 cites W1584691730 @default.
W2023187748 cites W1585828277 @default.
W2023187748 cites W1653807035 @default.
W2023187748 cites W1759081568 @default.
W2023187748 cites W1963988846 @default.
W2023187748 cites W1966174150 @default.
W2023187748 cites W1966705386 @default.
W2023187748 cites W1966810874 @default.
W2023187748 cites W1967336145 @default.
W2023187748 cites W1971185946 @default.
W2023187748 cites W1972265544 @default.
W2023187748 cites W1984451613 @default.
W2023187748 cites W1987148057 @default.
W2023187748 cites W1993791484 @default.
W2023187748 cites W1998420200 @default.
W2023187748 cites W2009479707 @default.
W2023187748 cites W2011343611 @default.
W2023187748 cites W2012000339 @default.
W2023187748 cites W2014968878 @default.
W2023187748 cites W2015505672 @default.
W2023187748 cites W2016382625 @default.
W2023187748 cites W2018250514 @default.
W2023187748 cites W2019968818 @default.
W2023187748 cites W2024756001 @default.
W2023187748 cites W2029784675 @default.
W2023187748 cites W2033377101 @default.
W2023187748 cites W2035651149 @default.
W2023187748 cites W2038256232 @default.
W2023187748 cites W2038591556 @default.
W2023187748 cites W2039874248 @default.
W2023187748 cites W2040933393 @default.
W2023187748 cites W2044189695 @default.
W2023187748 cites W2047803952 @default.
W2023187748 cites W2048699787 @default.
W2023187748 cites W2053780997 @default.
W2023187748 cites W2056511881 @default.
W2023187748 cites W2063757520 @default.
W2023187748 cites W2065120148 @default.
W2023187748 cites W2065221343 @default.
W2023187748 cites W2085500009 @default.
W2023187748 cites W2087243692 @default.
W2023187748 cites W2091330124 @default.
W2023187748 cites W2091839837 @default.
W2023187748 cites W2095701242 @default.
W2023187748 cites W2127928040 @default.
W2023187748 cites W2133187771 @default.
W2023187748 cites W2179731956 @default.
W2023187748 cites W2328429689 @default.
W2023187748 cites W2334178498 @default.
W2023187748 cites W2494851268 @default.
W2023187748 cites W3037443854 @default.
W2023187748 cites W3100245142 @default.
W2023187748 cites W3104601092 @default.
W2023187748 doi "https://doi.org/10.1103/physrevlett.114.027201" @default.
W2023187748 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25635561" @default.
W2023187748 hasPublicationYear "2015" @default.
W2023187748 type Work @default.
W2023187748 sameAs 2023187748 @default.
W2023187748 citedByCount "70" @default.
W2023187748 countsByYear W20231877482015 @default.
W2023187748 countsByYear W20231877482016 @default.
W2023187748 countsByYear W20231877482017 @default.
W2023187748 countsByYear W20231877482018 @default.
W2023187748 countsByYear W20231877482019 @default.
W2023187748 countsByYear W20231877482020 @default.
W2023187748 countsByYear W20231877482021 @default.
W2023187748 countsByYear W20231877482022 @default.
W2023187748 countsByYear W20231877482023 @default.
W2023187748 crossrefType "journal-article" @default.
W2023187748 hasAuthorship W2023187748A5059553178 @default.
W2023187748 hasAuthorship W2023187748A5073372666 @default.
W2023187748 hasAuthorship W2023187748A5078831605 @default.
W2023187748 hasBestOaLocation W20231877482 @default.
W2023187748 hasConcept C115260700 @default.
W2023187748 hasConcept C11924407 @default.
W2023187748 hasConcept C121332964 @default.
W2023187748 hasConcept C149288129 @default.
W2023187748 hasConcept C155355069 @default.
W2023187748 hasConcept C201665358 @default.
W2023187748 hasConcept C24890656 @default.
W2023187748 hasConcept C26873012 @default.
W2023187748 hasConcept C2781204021 @default.
W2023187748 hasConcept C32546565 @default.
W2023187748 hasConcept C44280652 @default.
W2023187748 hasConcept C62520636 @default.
W2023187748 hasConcept C72190298 @default.
W2023187748 hasConcept C80891386 @default.
W2023187748 hasConcept C84114770 @default.
W2023187748 hasConcept C85906118 @default.
W2023187748 hasConcept C90626534 @default.
W2023187748 hasConceptScore W2023187748C115260700 @default.
W2023187748 hasConceptScore W2023187748C11924407 @default.