Following a recently reported synthesis of linearly halide-​bridged Cu(II) complexes [Inorg. Chem. 2012, 51, 7966-​7968] characterized by strong antiferromagnetic exchange couplings (J)​, we applied Difference Dedicated CI (DDCI) and Broken-​Symmetry D. Functional Theory (BS-​DFT) approaches in order to analyze theor. the trend obsd., in which the decreasing electronegativity of the central halide induces an exacerbed magnetic coupling. The importance of the magnetic orbitals in DDCI calcns. is acknowledged. The use of reduced mol. models is shown to lead to significant differences in J, in the case of chloride and bromide bridges. Finally, the BS-​DFT decompn. of J in its main phys. contributions confirms the importance of the kinetic exchange mediated by the halide bridge, but also points towards an increasing core polarization contribution when going from fluoride to bromide.