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University of Cambridge > Talks.cam > ti201's list > Patterns of coexisting order parameters and universal escapeway to the magnetic quantum critical point
Patterns of coexisting order parameters and universal escapeway to the magnetic quantum critical pointAdd to your list(s) Download to your calendar using vCal
If you have a question about this talk, please contact Tracey Ingham. Lunchtime Seminar We show that particle-hole asymmetry induced by doping or pressure leads to patterns of order parameters that necessarily coexist whenever two of the order parameters are present. We have found a systematic way to predict all such patterns of unconventional superconducting and particle-hole condensates. We report novel magnetic field induced transitions to the multiphase pattern states that exhibit some of the thermodynamic characteristics of Fulde-Ferrel phases. For example, above a given field, we report a transition from d-wave singlet SC to a state in which d-wave singlet SC coexists with staggered triplet SC and SDW the other two partners of the given pattern. We will argue based on experiments on CeCoIn_5 that this may correspond to the high field so called “Q-phase” state observed in this material. A very similar behavior is obtained in a CDW system where we report field induced transitions with Fulde-Ferrel signatures to a state in which CDW , SDW and FM all coexist. Double step metamagnetic transitions in bilayered ruthenites and other materials as well as hidden orders like in URu_2Si_2 can all be understood in this context. By reporting similar results on these two examples of completely differemt physical situations we will argue that these “Fulde-Ferrel”-like transitions to the multiphase state may represent a universal escapeway to the magnetic quantum critical point. We may verify this conjencture on additional patterns. For some related Refs. see e.g. arxiv:0804.2450; arxiv:0804.2460; arxiv:0802.4093; arxiv:0709.1025; arxiv:0802.4080 This talk is part of the ti201's list series. This talk is included in these lists:Note that ex-directory lists are not shown. |
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Professor Georgios Varelogiannis, National Technical University of Athens
Thursday 27 November 2008, 13:00-14:00