Does Unruh effect necessarily imply entanglement?

We show that despite the fact that an accelerating observer would note the Minkowski vacuum to be thermal, which is the well known Unruh's effect, an inconsistency is implied writing the Minkowski vacuum as an entangled state between Rindler wedges. We first use the textbook derivation showing the Minkowski vacuum as an entangled state between Rindler wedges as an inspiration to construct alternate spacetimes, where the Minkowski vacuum can be written as a thermofield double state between disconnected regions of spacetime, and show that no thermality is implied by calculations using Bogoluibov coefficients. We next highlight issues in this textbook derivation by first noting the blowing up of Bogoluibov coefficients at $k=0$, followed by showing that that two point correlation function evaluations are inconsistent, despite the thermal nature of the particle spectrum as witnessed by observers following boost orbits. We highlight the reason behind the inconsistency in the derivation as an issue with expanding the relevant fields in a complete set of frequency modes.