Can the CMB be Odd? Effect of a Parity-Violating Matter 4-Point Function on the Low- CMB Trispectrum
Abstract
Here we explore from a theoretical perspective the sensitivity of the primary CMB anisotropy trispectrum to parity violation (PV) in large-scale structure (LSS). We focus on the Sachs-Wolfe term, which dominates at < 40, after which the Doppler term takes over. We consider a model where the PV is only present out to some maximal scale R of order a few hundred Mpc/h, consistent with what recent LSS 4PCF measurements seem to indicate. We find that the odd CMB trispectrum must be suppressed by at least one factor of R/*1\%, with * the distance to last scattering, relative to the input matter 4PCF. Thus, a non-detection of PV in the CMB trispectrum is not necessarily inconsistent with a genuine detection of PV in the LSS 4PCF.
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