Signatures of photon-axion conversion in the thermal spectra and polarization of neutron stars
Signatures of photon-axion conversion in the thermal spectra and polarization of neutron stars
Conversion of photons into axions under the presence of a strong magnetic field can dim the radiation from magnetized astrophysical objects. Here we perform a detailed calculation aimed at quantifying the signatures of photon-axion conversion in the spectra, light curves, and polarization of neutron stars (NSs). We take into account the energy and angle-dependence of the conversion probability and the surface thermal emission from NSs. The latter is computed from magnetized atmosphere models that include the effect of photon polarization mode conversion due to vacuum polarization. The resulting spectral models, inclusive of the general-relativistic effects of gravitational redshift and light deflection, allow us to make realistic predictions for the effects of photon to axion conversion on observed NS spectra, light curves, and polarization signals. We identify unique signatures of the conversion, such as an increase of the effective area of a hot spot as it rotates away from the observer line of sight. For a star emitting from the entire surface, the conversion produces apparent radii that are either larger or smaller (depending on axion mass and coupling strength) than the limits set by NS equations of state. For an emission region that is observed phase-on, photon-axion conversion results in an inversion of the plane of polarization with respect to the no-conversion case. While the quantitative details of the features that we identify depend on NS properties (magnetic field strength, temperature) and axion parameters, the spectral and polarization signatures induced by photon-axion conversion are distinctive enough to make NSs very interesting and promising probes of axion physics.
116-[17pp]
Perna, Rosalba
af017a3d-ae68-4773-a1e1-7888e7bfcba1
Ho, Wynn C.G.
d78d4c52-8f92-4846-876f-e04a8f803a45
Verde, Licia
9cad4ddb-0c6e-42df-bf05-215791ae39f9
van Adelsberg, Matthew
a9496944-6f6b-403c-8e93-73169769f571
Jimenez, Raul
5426db75-12d6-4b8d-b469-9290333ecef3
14 March 2012
Perna, Rosalba
af017a3d-ae68-4773-a1e1-7888e7bfcba1
Ho, Wynn C.G.
d78d4c52-8f92-4846-876f-e04a8f803a45
Verde, Licia
9cad4ddb-0c6e-42df-bf05-215791ae39f9
van Adelsberg, Matthew
a9496944-6f6b-403c-8e93-73169769f571
Jimenez, Raul
5426db75-12d6-4b8d-b469-9290333ecef3
Perna, Rosalba, Ho, Wynn C.G., Verde, Licia, van Adelsberg, Matthew and Jimenez, Raul
(2012)
Signatures of photon-axion conversion in the thermal spectra and polarization of neutron stars.
Astrophysical Journal, 748 (2), .
(doi:10.1088/0004-637X/748/2/116).
Abstract
Conversion of photons into axions under the presence of a strong magnetic field can dim the radiation from magnetized astrophysical objects. Here we perform a detailed calculation aimed at quantifying the signatures of photon-axion conversion in the spectra, light curves, and polarization of neutron stars (NSs). We take into account the energy and angle-dependence of the conversion probability and the surface thermal emission from NSs. The latter is computed from magnetized atmosphere models that include the effect of photon polarization mode conversion due to vacuum polarization. The resulting spectral models, inclusive of the general-relativistic effects of gravitational redshift and light deflection, allow us to make realistic predictions for the effects of photon to axion conversion on observed NS spectra, light curves, and polarization signals. We identify unique signatures of the conversion, such as an increase of the effective area of a hot spot as it rotates away from the observer line of sight. For a star emitting from the entire surface, the conversion produces apparent radii that are either larger or smaller (depending on axion mass and coupling strength) than the limits set by NS equations of state. For an emission region that is observed phase-on, photon-axion conversion results in an inversion of the plane of polarization with respect to the no-conversion case. While the quantitative details of the features that we identify depend on NS properties (magnetic field strength, temperature) and axion parameters, the spectral and polarization signatures induced by photon-axion conversion are distinctive enough to make NSs very interesting and promising probes of axion physics.
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Published date: 14 March 2012
Organisations:
Applied Mathematics
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Local EPrints ID: 208755
URI: http://eprints.soton.ac.uk/id/eprint/208755
ISSN: 0004-637X
PURE UUID: ddd2fa9f-8368-45e7-a838-a2bd61643571
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Date deposited: 23 Jan 2012 10:57
Last modified: 14 Mar 2024 04:43
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Author:
Rosalba Perna
Author:
Licia Verde
Author:
Matthew van Adelsberg
Author:
Raul Jimenez
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