L=0,\nabla_\lambda L^{\lambda\mu\nu} = 0,
with torsion explicitly contributing to the dynamics of LL^{\mu\nu}.
This cosmic angular momentum is responsible for:
Generating vorticity in the metric,
Inducing frame-dragging effects,
Breaking statistical isotropy, which may explain CMB dipole and quadrupole alignment.
From a phenomenological perspective, the inclusion of angular momentum in cosmological initial conditions allows a unified explanation for:
Galaxy spin alignment,
Supercluster preferred axes,
Anisotropies in galaxy distributions.
Furthermore, global angular momentum introduces a directionality to the cosmic expansion---a concept compatible with recent observations of cosmic dipoles and asymmetries in the acceleration parameter.
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