Tight bounds on the Mawell-Carroll-Field-Jackiw parameters using Fast Radio Bursts

We investigate {the arrival time and the Faraday rotation} of extragalactic electromagnetic signals from fast radio bursts (FRBs) propagating through chiral cosmic media within the framework of Maxwell-Carroll-Field-Jackiw {(MCFJ)} electrodynamics. By treating the interstellar medium as a cold, ionized chiral plasma, {we derive} the time delay between two traveling signals, expressing it in terms of modified dispersion measures (DMs) {containing chiral contributions}. {The Faraday rotation angle is then} written in terms of modified rotation measures (RMs). By combining the DMs and redshift data from a set of FRBs, {we obtain} constraints on the chiral parameter magnitude at the order of $10^{-26}$–$10^{-24}$ GeV. {Using the Faraday} rotation formulae and RM measurements, {upper bounds as stringent as $10^{-43}$ GeV on the MCFJ parameters are also obtained.}