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We employ the cluster Gutzwiller mean-field method to investigate the ground-state phase diagrams and demixing effects in binary boson mixtures with pair hopping in synthetic dimensions. Our study reveals two novel interspecies paired superfluid phases: the paired super-counter-fluid (PSCF) phase, featuring pairs of two particles of one species and two holes of the other, and the SCF* phase, which combines PSCF and super-counter-fluid (SCF) orders. These phases provide new insights into XY ferromagnet states from a pseudo-spin perspective, with SCF* and PSCF states corresponding to different XY ferromagnet phases depending on particle filling. We also identify a quantum quadruple critical point in the interexchange asymmetric case. Importantly, we demonstrate that the mixed-demixed critical point is phase-dependent due to pairing hopping, differing from normal two-component bosonic systems. Experimental schemes to observe these novel phases are proposed. |
