Realization of a spin-1/2 spatially anisotropic square lattice in a quasi-two-dimensional quantum antiferromagnet Cu(en)(H2O)(2)SO4

Lederová, Lívia; Orendáčová, Alžbeta; Chovan, Jaroslav; Strečka, Jozef; Verkholyak,; Tarasenko, Robert; Legut, Dominik; Sýkora, Rudolf; Čižmár, Erik; Tkáč, Vladimír; Orendáč, Martin; Feher, Alexander

doi:https://dx.doi.org/10.1103/PhysRevB.95.054436

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Realization of a spin-1/2 spatially anisotropic square lattice in a quasi-two-dimensional quantum antiferromagnet Cu(en)(H2O)(2)SO4

Title	Realization of a spin-1/2 spatially anisotropic square lattice in a quasi-two-dimensional quantum antiferromagnet Cu(en)(H2O)(2)SO4
Author info	Lívia Lederová ... [et al.]
Author	Lederová Lívia (12%)
Co-authors	Orendáčová Alžbeta (15%) Chovan Jaroslav 1972- (12%) UMBFP06 - Katedra fyziky Strečka Jozef (12%) Verkholyak (5%) Tarasenko Robert (5%) Legut Dominik (12%) Sýkora Rudolf (5%) Čižmár Erik (7%) Tkáč Vladimír (5%) Orendáč Martin (5%) Feher Alexander (5%)
Source document	Physical Review B. Vol. 95, no. 5 (2017), pp. [1-2]. - Maryland : American Physical Society, 2017
Keywords	quasi-two-dimensional quantum antiferromagnet square lattice two-dimensional lattice space magnetic anisotropy
Language	English
Country	United States of America
systematics	53
Annotation	Theoretical and experimental studies of a quasi-two-dimensional quantum antiferromagnet Cu(en)(H2O)(2)SO4 (en = C2H8N2) were performed. ab initio calculations of exchange interactions confirmed that the system represents a realization of a spatially anisotropic zigzag square lattice. Corresponding quantum Monte Carlo calculations of thermodynamic quantities were realized and the results were applied in the analysis of experimental susceptibility, magnetization, and specific heat studied at temperatures ranging from nominally 300 mK up to 8 K and magnetic fields up to 14 T. The analysis of experimental results provided the estimates of intralayer exchange couplings, J/k(B) = 3.5 +/- 0.2 K and J (1) = 0.35 J. Theoretical analysis of spin symmetries in Cu( en)( H2O) 2SO4 structure predicted the presence of symmetric exchange anisotropies (out- of plane and in-plane spin anisotropy) and a spin-flop transition within the easy plane induced by the magnetic field applied along the easy axis. Isothermal magnetization measurements indicated the expected transition in the field 200 mT applied along the b axis which was finally identified as the easy axis lying within the easy plane bc. Magnetic phase diagrams with saturation fields about 6.5 T show nearly identical behavior in all studied directions. Differences appear only in weak magnetic fields as a result of the presence of weak exchange anisotropies approximate to 10(-3) J. The present analysis suggests that Cu( en)( H2O) 2SO4 can be a model system for exploring the interplay of quantum fluctuations, exchange anisotropies, and magnetic field in the two-dimensional lattice space.
Public work category	ADC
No. of Archival Copy	39341
Database	xpca - PUBLIKAČNÁ ČINNOSŤ
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