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SCHÁNILEC, V. CANALS, B. UHLÍŘ, V. FLAJŠMAN, L. SADÍLEK, J. ŠIKOLA, T. ROUGEMAILLE, N.
Originální název
Bypassing Dynamical Freezing in Artificial Kagome Ice
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
angličtina
Originální abstrakt
Spin liquids are correlated, disordered states of matter that fluctuate even at low temperatures. Experimentally, the extensive degeneracy characterizing their low-energy manifold is expected to be lifted, for example, because of dipolar interactions, leading to an ordered ground state at absolute zero. However, this is not what is usually observed, and many systems, whether they are chemically synthesized or nanofabricated, dynamically freeze before magnetic ordering sets in. In artificial realizations of highly frustrated magnets, ground state configurations, and even low-energy manifolds, thus remain out of reach for practical reasons. Here, we show how dynamical freezing can be bypassed in an artificial kagome ice. We illustrate the efficiency of our method by demonstrating that the a priori dynamically inaccessible ordered ground state and fragmented spin liquid configurations can be obtained reproducibly, imaged in real space at room temperature, and studied conveniently. We then identify the mechanism by which dynamical freezing occurs in the dipolar kagome ice.
Klíčová slova
SPIN ICE; COULOMB PHASE; FRAGMENTATION
Autoři
SCHÁNILEC, V.; CANALS, B.; UHLÍŘ, V.; FLAJŠMAN, L.; SADÍLEK, J.; ŠIKOLA, T.; ROUGEMAILLE, N.
Vydáno
31. 7. 2020
Nakladatel
AMER PHYSICAL SOC
Místo
COLLEGE PK
ISSN
1079-7114
Periodikum
Physical Review Letters
Ročník
125
Číslo
5
Stát
Spojené státy americké
Strany od
057203-1
Strany do
057201-5
Strany počet
URL
https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.125.057203