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Hardcore-Boson Phases in Quantum Critical Dimer Materials.
Christian RÜEGG
London Centre for Nanotechnology and Department of Physics and Astronomy
Jeudi 24/05/2007, 14:30
LLB - Bât 563 p15 (Grande Salle), CEA-Saclay
Spin-dimer based magnetic insulators are model systems for the experimental and theoretical investigation of field-tuned quantum criticality and, in particular, the ground states of strongly interacting hardcore bosons (triplets), for which there are increasing parallels to ultra-cold atoms in optical lattices. We have investigated corresponding quantum phase transitions by inelastic neutron scattering (INS) in spin systems, which cover both the effect of dimensionality and the degree of quasi-particle mobility. These quantities characterize the triplet excitations and define the magnon-‘BEC’ phases above the field-induced quantum critical point in these materials. Inorganic compounds like the 3D copper-halide family ACuCl3 (A=K, Tl, NH4) [1], the strongly frustrated Shastry-Sutherland material SrCu2(BO3)2, and quasi-2D BaCuSi2O6 [2,3] all show distinct spin dynamics associated with the boson system, which they represent. Additionally, the fascinating quasi-1D limit is accessible in novel organic materials, which promote a characteristic quantum phase – the Luttinger spin-liquid. Recent INS results [4], which explore this exciting low-dimensional limit, will be compared to those obtained in higher dimensions and elaborate predictions by theory. [1] Ch. Rüegg et al., Nature 423, 62 (2003); Phys. Rev. Lett. 93, 037207 (2004); Phys. Rev. Lett. 93, 257201 (2004); Phys. Rev. Lett. 95, 267201 (2005). [2] S.E. Sebastian et al., Nature 441, 617 (2006). [3] Ch. Rüegg et al., Phys. Rev. Lett. 98, 017202 (2007). [4] B. Thielemann, Ch. Rüegg, H.M. Rønnow et al., in preparation.


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