about
CdEr2Se4: a new erbium spin ice system in a spinel structureGlassiness and exotic entropy scaling induced by quantum fluctuations in a disorder-free frustrated magnet.Topological frustration of artificial spin iceMagnetic phase transitions and monopole excitations in spin ice under uniaxial pressure: A Monte Carlo simulation.Ba2LnSbO6 and Sr2LnSbO6 (Ln = Dy, Ho, Gd) double perovskites: lanthanides in the geometrically frustrating fcc latticeHigh pressure route to generate magnetic monopole dimers in spin ice.Dynamics enhanced by HCl doping triggers full Pauling entropy release at the ice XII-XIV transitionSupercooled spin liquid state in the frustrated pyrochlore Dy2Ti2O7.Thermodynamic phase transitions in a frustrated magnetic metamaterialMagnetic-charge ordering and phase transitions in monopole-conserved square spin ice.The non-random walk of chiral magnetic charge carriers in artificial spin ice.Brownian motion and quantum dynamics of magnetic monopoles in spin iceLow-temperature muon spin rotation studies of the monopole charges and currents in Y doped Ho2Ti2O7.Intermediate magnetization state and competing orders in Dy2Ti2O7 and Ho2Ti2O7.Restoration of the third law in spin ice thin filmsEmergent inequality and self-organized social classes in a network of power and frustrationEngineering of frustration in colloidal artificial ices realized on microfeatured grooved lattices.Low temperature structural anomalies arising from competing exchange interactions in pyrochlore Nd2Ru2O7 probed by XRD and EXAFS.Generalized longitudinal susceptibility for magnetic monopoles in spin ice.Fragmentation in spin ice from magnetic charge injection.Realization of Rectangular Artificial Spin Ice and Direct Observation of High Energy Topology.Quantum fluctuations in spin-ice-like Pr2Zr2O7.Harmonic phase in polar liquids and spin ice.Entropy of diluted antiferromagnetic Ising models on frustrated lattices using the Wang-Landau method.Tunable geometrical frustration in magnonic vortex crystals.Freezing and thawing of artificial ice by thermal switching of geometric frustration in magnetic flux lattices.Adiabatic cooling processes in frustrated magnetic systems with pyrochlore structure.In situ neutron diffraction study of the formation of Ho2Ge2O7 pyrochlore at high temperature and pressure.Entropy Evolution in the Magnetic Phases of Partially Frustrated CePdAl.Hysteresis and return-point memory in colloidal artificial spin ice systems.Quadrupole Order in the Frustrated Pyrochlore Tb_{2+x}Ti_{2-x}O_{7+y}.Magnetic charge and ordering in kagome spin ice.Magnetic Ground States of the Rare-Earth Tripod Kagome Lattice Mg_{2}RE_{3}Sb_{3}O_{14} (RE=Gd,Dy,Er).Coexistence of long-range order and spin fluctuation in geometrically frustrated clinoatacamite Cu2Cl(OH)3.Frustration and Self-Ordering of Topological Defects in Ferroelectrics.Bosonic Condensation and Disorder-Induced Localization in a Flat Band.Macroscopic magnetic frustration.Defect Dynamics in Artificial Colloidal Ice: Real-Time Observation, Manipulation, and Logic Gate.Three-dimensional Kasteleyn transition: spin ice in a [100] field.Dipolar spin correlations in classical pyrochlore magnets.
P2860
Q28294069-8E9D14B8-EA26-4B2F-9FC7-7A38660F08FEQ30413782-170AA4C4-4200-468B-B73F-FAC4F171CF0BQ30835346-7E5FF257-94A6-40D9-9272-1203BC9F2F16Q35130914-0FE9F29F-9A5C-4A6C-A6B6-C4BFD3D7EA23Q35167217-CD95F27B-1D44-4038-8A72-38FB964CF5CDQ35366598-16435633-5097-414B-9194-E09E36BBF0D9Q35814284-5CE96F2B-AD7A-4CBF-AD7E-DE5EEBE09EFCQ35865542-DF6CED54-A0D9-43F6-9ABE-E8AB330F161CQ36128362-BEF44375-0643-42F2-8034-8E72B6AA07CFQ36222435-E7CCAE87-B5BE-4D91-BE83-442ABF523A55Q36605491-376EEE7A-157F-4F7D-B461-0DF1AE1F4FE9Q36652050-F295D200-B0DB-4A71-AFEE-8B3E7BA2F3FEQ36868883-0324B61B-6157-4B32-B54C-42FAC0430271Q37222958-684DC6A7-DC0B-4210-A635-836E11BD1067Q37646656-3CDA8712-4564-4595-88E9-52CAEED3629AQ37650190-A8E76C21-253F-4BD6-96F6-2B04187B9866Q38255927-A085A080-ECC3-45E1-BF8C-F9F6F9A7BB3EQ40615161-CAC9A7CE-14A9-4D36-9F43-F6CB0B73B46EQ41187623-6E1CA835-719B-48FE-B8EE-8DAFE8A4BB39Q41287793-2E3DAE24-803E-4445-B0A9-AC5BC326F0F9Q42630224-2C478D58-AD6D-44CB-95EC-3B9F7FEB7A84Q46134500-01F5CAA7-9FD8-4B86-B4DC-A2975B7B7D83Q47155306-C31807F4-16E5-4A31-8080-898DB5D4E3B5Q47799734-A37E0A15-9CD2-46AA-90EA-2D9AB2C9E2DCQ48276615-E02A0D8E-970D-49C8-BF0F-F1806725F53EQ48280049-74A6DA96-9751-45C0-868C-EC18DFDBCE45Q49958031-59088E4D-36B2-4AE3-8B4A-775BA20C14CBQ50095458-4889E199-B750-4A1F-A50E-14343EE16333Q50205244-40DC35E1-3150-4877-AFDD-7EAF3F7252D0Q50936519-70FE1EFE-7E81-4C60-B07D-AA96E7B3CE87Q51297243-5AA008A1-BD71-43A1-9722-CC14E3B63706Q51298556-0BA22C58-3D5F-46F9-AB24-53CDDF749E47Q51352024-5AD6D139-D4B2-4FE3-8719-596A76B79C9EQ51374192-F64EE266-0A6E-4416-BB31-764D6740B2CAQ51402480-421DA842-2900-413F-AD7C-C70A441E46F9Q51490839-27BF977F-B249-49C8-99A2-B8233AA1F849Q51598388-FDDEB8DA-109B-4CB9-8506-FFE83C8D6EDAQ51743575-FA2872F5-2BCE-4539-850C-D508C28D28C3Q51890427-943B3C11-C910-4895-8144-4A9F7A991C6BQ51984939-1D71AA43-E89E-4A79-A463-8EA2DCF8F1E1
P2860
description
article publié dans la revue scientifique Nature
@fr
scientific article published in Nature
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в Nature в травні 1999
@uk
name
Zero-point entropy in ‘spin ice’
@en
Zero-point entropy in ‘spin ice’
@nl
type
label
Zero-point entropy in ‘spin ice’
@en
Zero-point entropy in ‘spin ice’
@nl
prefLabel
Zero-point entropy in ‘spin ice’
@en
Zero-point entropy in ‘spin ice’
@nl
P2093
P2860
P356
P1433
P1476
Zero-point entropy in ‘spin ice’
@en
P2093
A. Hayashi
A. P. Ramirez
B. S. Shastry
R. Siddharthan
P2860
P2888
P304
P356
10.1038/20619
P407
P50
P577
1999-05-01T00:00:00Z
P6179
1040860021