2014
DOI: 10.1038/nphys2902
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Quantum and classical criticality in a dimerized quantum antiferromagnet

Abstract: A quantum critical point (QCP) is a singularity in the phase diagram arising due to quantum mechanical fluctuations. The exotic properties of some of the most enigmatic physical systems, including unconventional metals and superconductors, quantum magnets, and ultracold atomic condensates, have been related to the importance of the critical quantum and thermal fluctuations near such a point. However, direct and continuous control of these fluctuations has been difficult to realize, and complete thermodynamic a… Show more

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Cited by 143 publications
(198 citation statements)
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“…9 This paper is concerned with the S = 1/2 quasi-two-dimensional gapped quantum antiferromagnet piperazinium hexachlorodicuprate [(C 4 H 12 N 2 )Cu 2 Cl 6 , hereafter PHCC]. PHCC crystallizes in the triclinic space group P1 with lattice parameters 10 a = 7.984(4)Å, b = 7.054(4)Å, c = 6.104(3)Å, α = 111.23 (8) • , β = 99.95 (9) • , γ = 81.26 (7) • . The spin-1/2 Cu 2+ ions are connected by a complex layered network (see Fig.…”
Section: Introductionmentioning
confidence: 99%
“…9 This paper is concerned with the S = 1/2 quasi-two-dimensional gapped quantum antiferromagnet piperazinium hexachlorodicuprate [(C 4 H 12 N 2 )Cu 2 Cl 6 , hereafter PHCC]. PHCC crystallizes in the triclinic space group P1 with lattice parameters 10 a = 7.984(4)Å, b = 7.054(4)Å, c = 6.104(3)Å, α = 111.23 (8) • , β = 99.95 (9) • , γ = 81.26 (7) • . The spin-1/2 Cu 2+ ions are connected by a complex layered network (see Fig.…”
Section: Introductionmentioning
confidence: 99%
“…It is at the ordering wavevector where the stability of the Higgs mode critically depends on the dimensionality of the system. In three dimensions, earlier INS studies on a dimerized quantum magnet have established a well-defined Higgs mode 4 , which was then used to study its critical behaviour across a QCP 23,24 . In sharp contrast, our in-planepolarized spectrum measured at q = (π,π) shows only one clear peak for the T mode at approximately 14 meV, followed by a broad magnetic intensity distribution in the energy range 20-50 meV, which is, however, well above the detection limit (Fig.…”
mentioning
confidence: 99%
“…Recently, this type of collective mode has attracted much attention thanks to experimental observations in various condensed-matter and quantum-gas systems, such as superconductors NbSe 2 [3][4][5] and Nb 1−x Ti x N [6][7][8][9], quantum antiferromagnets TlCuCl 3 [10,11] and KCuCl 3 [12], charge-density-wave materials K 0.3 MoO 3 [13,14] and TbTe 3 [15,16], superfluid 3 He B-phase [17,18], and superfluid Bose gases in optical lattices [19,20].…”
Section: Introductionmentioning
confidence: 99%