2012
DOI: 10.1080/00150193.2012.671087
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Diagrams of State for One-Dimensional Hydrogen-Bonded Proton Conductor

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Cited by 5 publications
(7 citation statements)
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“…The behaviour of ρ A (ω) function is in agreement with the results of numerical calculations performed in [19] with exact diagonalization technique for one-dimensional (d = 1) chain structures. In [19], the authors take into account the two-particle interaction between nearest neighbouring sites. This interaction forms the effective internal field which is similar to the field δ considered here, and both fields are responsible for the appearance of CDW-like phase.…”
Section: Excitation Spectrum In Sf Phasesupporting
confidence: 84%
“…The behaviour of ρ A (ω) function is in agreement with the results of numerical calculations performed in [19] with exact diagonalization technique for one-dimensional (d = 1) chain structures. In [19], the authors take into account the two-particle interaction between nearest neighbouring sites. This interaction forms the effective internal field which is similar to the field δ considered here, and both fields are responsible for the appearance of CDW-like phase.…”
Section: Excitation Spectrum In Sf Phasesupporting
confidence: 84%
“…The character of changes in the frequency dependence of the one-particle spectral density of states, which depends on the location of the chemical potential level, qualitatively agrees with the results of calculations obtained in the framework of the exact diagonalization technique for the one-dimensional chain model [23]. In the cited work, the hoppings of hard-core bosons onto neighbor sites were considered, and negative values were obtained for the one-particle spectral densities at energies located below the chemical potential level.…”
Section: Spectrum Of Bosonic Excitations One-particle Spectral Densisupporting
confidence: 75%
“…In the framework of the pseudospin approach, by applying the fermionization procedure in the one-dimensional case [21] and the random phase approximation in the more general three-dimensional one [22], modifications in the one-particle spectral densities at the transition from the non-ordered (NO) state into the ordered one, in which S x = b + = b = 0 and which is an analog of the phase with the lattice Bose condensate (the SF phase), were studied. The spectral densities and their frequency dependences obtained in work [22] qualitatively agree with the corresponding frequency dependences calculated on the basis of the fermionization model and using the method of exact diagonalization at one-dimensional clusters [23].…”
Section: Introductionsupporting
confidence: 71%
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“…This work continues our theoretical researches [21][22][23][24] dealing with the energy spectrum and the spectral characteristics of a quantum lattice Bose gas, and, in particular, the hard-core boson model. In the framework of the pseudospin approach, by applying the fermionization procedure in the one-dimensional case [21] and the random phase approximation in the more general three-dimensional one [22], modifications in the one-particle spectral densities at the transition from the non-ordered (NO) state into the ordered one, in which S x = b + = b = 0 and which is an analog of the phase with the lattice Bose condensate (the SF phase), were studied.…”
Section: Introductionsupporting
confidence: 57%