Quasiparticles as composite objects in the RVB superconductor

A. Auerbach; C. Gros; C. Jayaprakash; D.P. Arovas; Daijiro Yoshioka; E. Dagotto; G.B. Martins; P.A. Lee; S.A. Kivelson; Sanjoy K. Sarker; T. Senthil; T. Tohyama; V. N. Muthukumar; V.N. Muthukumar; V.N. Muthukumar; X.G. Wen; Yi Zhou; Z.Y. Weng; Z.Y. Weng; Z.Y. Weng; Z.Y. Weng; Z.Y. Weng; Zheng-Yu Weng

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Quasiparticles as composite objects in the RVB superconductor

Authors: A. Auerbach
C. Gros
C. Jayaprakash
D.P. Arovas
Daijiro Yoshioka
E. Dagotto
G.B. Martins
P.A. Lee
S.A. Kivelson
Sanjoy K. Sarker
T. Senthil
T. Tohyama
V. N. Muthukumar
V.N. Muthukumar
V.N. Muthukumar
X.G. Wen
Yi Zhou
Z.Y. Weng
Z.Y. Weng
Z.Y. Weng
Z.Y. Weng
Z.Y. Weng
Zheng-Yu Weng
Publication date: 1 August 2002
Publisher: 'American Physical Society (APS)'
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Abstract

We study the nature of the superconducting state, the origin of d-wave pairing, and elementary excitations of a resonating valence bond (RVB) superconductor. We show that the phase string formulation of the t-J model leads to confinement of bare spinon and holon excitations in the superconducting state, though the vacuum is described by the RVB state. Nodal quasiparticles are obtained as composite excitations of spinon and holon excitations. The d-wave pairing symmetry is shown to arise from short range antiferromagnetic correlations

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