Journal
ASTROPHYSICAL JOURNAL LETTERS
Volume 699, Issue 1, Pages L5-L8Publisher
IOP PUBLISHING LTD
DOI: 10.1088/0004-637X/699/1/L5
Keywords
elementary particles; magnetic fields; pulsars: general
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We show that, by studying the arrival times of radio pulses from highly magnetized pulsars, it may be possible to detect light spin-0 bosons (such as axions and axion-like particles) with a much greater sensitivity, over a broad particle mass range than is currently reachable by terrestrial experiments and indirect astrophysical bounds. In particular, we study the effect of splitting of photon-boson beams under intense magnetic field gradients in magnetars and show that radio pulses (at meter wavelengths) may be split and shift by a discernible phase down to a photon-boson coupling constant of g similar to 10(-14) GeV-1; i.e., about 4 orders of magnitude lower than current upper limits on g. The effect increases linearly with photon wavelength with split pulses having equal fluxes and similar polarizations. These properties make the identification of beam-splitting and beam deflection effects straightforward with currently available data. Better understanding of radio emission from magnetars is, however, required to confidently exclude regions in the parameter space when such effects are not observed.
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