Field-Controlled Magnetic Order in the Quantum Spin-Ladder System (Hpip)2CuBr4

A. M. L\"auchli; B. Grenier; B. Normand; B. Thielemann; Ch. R\"uegg; C. Kollath; D. Biner; D.F. McMorrow; E. Orignac; F. Wolff-Fabris

arxiv: 0809.0440 · v2 · submitted 2008-09-02 · ❄️ cond-mat.str-el

Field-Controlled Magnetic Order in the Quantum Spin-Ladder System (Hpip)2CuBr4

B. Thielemann , Ch. R\"uegg , K. Kiefer , H.M. R{\o}nnow , B. Normand , P. Bouillot , C. Kollath , E. Orignac

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R. Citro T. Giamarchi A. M. L\"auchli D. Biner K. Kr\"amer F. Wolff-Fabris V. Zapf M. Jaime J. Stahn N.B. Christensen B. Grenier D.F. McMorrow J. Mesot

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keywords couplingcubr4hpipinterladderorderquantumspinspin-ladder

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Neutron diffraction is used to investigate the field-induced, antiferromagnetically ordered state in the two-leg spin-ladder material (Hpip)2CuBr4. This "classical" phase, a consequence of weak interladder coupling, is nevertheless highly unconventional: its properties are influenced strongly by the spin Luttinger-liquid state of the ladder subunits. We determine directly the order parameter (transverse magnetization), the ordering temperature, the spin structure, and the critical exponents around the transition. We introduce a minimal, microscopic model for the interladder coupling and calculate the quantum fluctuation corrections to the mean-field interaction.

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Field-Controlled Magnetic Order in the Quantum Spin-Ladder System (Hpip)2CuBr4

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