Abstract
We calculate the fermion propagator in Friedmann–Lemaˆıtre–Robertson–
Walker (FLRW) spacetimeswith constant deceleration q = −1, = −H˙ /H2
for excited states. For fermions whose mass is generated by a scalar field
through a Yukawa coupling m = gYφ, we assume φ ∝α H. We first solve
the mode functions by splitting the spinor into a direct product of helicity
and chirality spinors. We also allow for non-vacuum states. We normalize the
spinors using a consistent canonical quantization and by requiring orthogonality
of particle and anti-particle spinors. We apply our propagator to calculate the
one-loop effective action and renormalize using dimensional regularization.
Since the Hubble parameter is now treated dynamically, this paves the way to
study the dynamical backreaction of fermions on the background spacetime.
Original language | Undefined/Unknown |
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Pages (from-to) | 125003/1-125003/28 |
Number of pages | 28 |
Journal | Classical and Quantum Gravity |
Volume | 26 |
Publication status | Published - 2009 |