2007
DOI: 10.1103/physrevlett.99.230601
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Effects of Dissipation on a Quantum Critical Point with Disorder

Abstract: We study the effects of dissipation on a disordered quantum phase transition with O(N) order-parameter symmetry by applying a strong-disorder renormalization group to the Landau-Ginzburg-Wilson field theory of the problem. We find that Ohmic dissipation results in a nonperturbative infinite-randomness critical point with unconventional activated dynamical scaling while super-Ohmic damping leads to conventional behavior. We discuss applications to the superconductor-metal transition in nanowires and to the Hert… Show more

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Cited by 82 publications
(129 citation statements)
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“…[13,14], where the scaling and renormalization group (RG) picture of the 1d superfluid-insulator transition at weak disorder was also established. Recently, much theoretical progress was afforded through real-space RG approaches in the case of dissipative [15] and closed [16,17] bosonic chains, where the properties of the SF-insulator transition at strong disorder were established.In this paper, we study the excitations of the superfluid phase in a bosonic chain with a strongly random potential and interactions, near the SF-insulator transition. Capitalizing on the real-space RG understanding of this transition [16,17], we analyze the localization length of phonons (i.e., Bogoliubov quasiparticles) as a function of their frequency and wave number.…”
mentioning
confidence: 99%
See 1 more Smart Citation
“…[13,14], where the scaling and renormalization group (RG) picture of the 1d superfluid-insulator transition at weak disorder was also established. Recently, much theoretical progress was afforded through real-space RG approaches in the case of dissipative [15] and closed [16,17] bosonic chains, where the properties of the SF-insulator transition at strong disorder were established.In this paper, we study the excitations of the superfluid phase in a bosonic chain with a strongly random potential and interactions, near the SF-insulator transition. Capitalizing on the real-space RG understanding of this transition [16,17], we analyze the localization length of phonons (i.e., Bogoliubov quasiparticles) as a function of their frequency and wave number.…”
mentioning
confidence: 99%
“…[13,14], where the scaling and renormalization group (RG) picture of the 1d superfluid-insulator transition at weak disorder was also established. Recently, much theoretical progress was afforded through real-space RG approaches in the case of dissipative [15] and closed [16,17] bosonic chains, where the properties of the SF-insulator transition at strong disorder were established.…”
mentioning
confidence: 99%
“…We therefore expect the cost of our method to scale as N y+3/2 s or N 3/2 s in the quantum Griffiths and quantum paramagnetic phases, respectively. For three dimensional systems, sparse matrices can be inverted in O(N 2 s ) operations [27], correspondingly the cost of our method is expected to behave as N A possible application of our method in three dimensions is the disordered itinerant antiferromagnetic quantum phase transitions [21,22]. The clean transition is described by a Landau-Ginzburg-Wilson theory which is generalization of the action (1) to d = 3 space dimensions and N = 3 order parameter components [18,19].…”
Section: Discussionmentioning
confidence: 99%
“…This has been well established in systems with both Ising and continuous symmetry (Fisher, 1992(Fisher, , 1994(Fisher, , 1995Fisher and Young, 1998;Guo et al, 1996;Hyman and Yang, 1997;Hyman et al, 1996;Motrunich et al, 2001;Narayanan et al, 1999a,b;Pich et al, 1998;Refael et al, 2002;Yang et al, 1996). More recently, a symmetry-based classification scheme of these Griffiths phases has been proposed and applied to several different systems with great success (Hoyos et al, 2007;Vojta, 2006, 2008;Vojta, 2003Vojta, , 2006Vojta et al, 2009;Vojta and Schmalian, 2005a,b). The Mott transition, however, poses a problem of a different nature, as it is not described by an order parameter in an obvious way.…”
Section: The Disordered Mott-hubbard Transitionmentioning
confidence: 97%