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W2034886174 startingPage "7541" @default.
W2034886174 abstract "We analyze the properties of a general Ginzburg-Landau free energy with competing order parameters, long-range interactions, and global constraints (e.g., a fixed value of a total ``charge'') to address the physics of stripe phases in underdoped high-${T}_{c}$ and related materials. For a local free energy limited to quadratic terms of the gradient expansion, only uniform or phase-separated configurations are thermodynamically stable. ``Stripe'' or other nonuniform phases can be stabilized by long-range forces, but can only have nontopological (in-phase) domain walls where the components of the antiferromagnetic order parameter never change sign, and the periods of charge and spin-density waves coincide. The antiphase domain walls observed experimentally require physics on an intermediate length scale, and they are absent from a model that involves only long-distance physics. Dense stripe phases can be stable even in the absence of long-range forces, but domain walls always attract at large distances; i.e., there is a ubiquitous tendency to phase separation at small doping. The implications for the phase diagram of underdoped cuprates are discussed." @default.
W2034886174 created "2016-06-24" @default.
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W2034886174 date "1999-09-01" @default.
W2034886174 modified "2023-10-16" @default.
W2034886174 title "Topological doping and the stability of stripe phases" @default.
W2034886174 cites W1489612589 @default.
W2034886174 cites W1507413791 @default.
W2034886174 cites W1609226232 @default.
W2034886174 cites W1614146456 @default.
W2034886174 cites W1625319197 @default.
W2034886174 cites W1655183668 @default.
W2034886174 cites W1677831727 @default.
W2034886174 cites W1763504583 @default.
W2034886174 cites W1943899857 @default.
W2034886174 cites W1964530097 @default.
W2034886174 cites W1966711070 @default.
W2034886174 cites W1967663024 @default.
W2034886174 cites W1968734046 @default.
W2034886174 cites W1969558457 @default.
W2034886174 cites W1973663126 @default.
W2034886174 cites W1974016816 @default.
W2034886174 cites W1976481778 @default.
W2034886174 cites W1978762857 @default.
W2034886174 cites W1983014734 @default.
W2034886174 cites W1985118247 @default.
W2034886174 cites W1986639042 @default.
W2034886174 cites W1998774264 @default.
W2034886174 cites W1999778725 @default.
W2034886174 cites W2003070572 @default.
W2034886174 cites W2003987062 @default.
W2034886174 cites W2006232082 @default.
W2034886174 cites W2007047504 @default.
W2034886174 cites W2011029256 @default.
W2034886174 cites W2013410076 @default.
W2034886174 cites W2015252581 @default.
W2034886174 cites W2021882020 @default.
W2034886174 cites W2025729080 @default.
W2034886174 cites W2027210238 @default.
W2034886174 cites W2029680527 @default.
W2034886174 cites W2029920090 @default.
W2034886174 cites W2030439669 @default.
W2034886174 cites W2033418663 @default.
W2034886174 cites W2036350055 @default.
W2034886174 cites W2043784296 @default.
W2034886174 cites W2044639516 @default.
W2034886174 cites W2046344304 @default.
W2034886174 cites W2048176413 @default.
W2034886174 cites W2051651396 @default.
W2034886174 cites W2052135736 @default.
W2034886174 cites W2054043208 @default.
W2034886174 cites W2054391102 @default.
W2034886174 cites W2060856639 @default.
W2034886174 cites W2061043043 @default.
W2034886174 cites W2061565634 @default.
W2034886174 cites W2062541855 @default.
W2034886174 cites W2064120212 @default.
W2034886174 cites W2065366879 @default.
W2034886174 cites W2065675569 @default.
W2034886174 cites W2072954196 @default.
W2034886174 cites W2075773594 @default.
W2034886174 cites W2076297403 @default.
W2034886174 cites W2080844636 @default.
W2034886174 cites W2082614911 @default.
W2034886174 cites W2084967147 @default.
W2034886174 cites W2090895972 @default.
W2034886174 cites W2117332517 @default.
W2034886174 cites W2151574010 @default.
W2034886174 cites W2164824445 @default.
W2034886174 cites W2489277465 @default.
W2034886174 cites W2594325161 @default.
W2034886174 cites W2912933952 @default.
W2034886174 cites W3021456214 @default.
W2034886174 cites W3105717058 @default.
W2034886174 cites W3144311357 @default.
W2034886174 cites W4241322326 @default.
W2034886174 cites W4595624 @default.
W2034886174 doi "https://doi.org/10.1103/physrevb.60.7541" @default.
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