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Multiband Optical Light Curves of Black-widow Pulsars

Paul A. DraghisDepartment of Physics, Stanford University, Stanford, CA 94305-4060, USARoger W. RomaniDepartment of Physics, Stanford University, Stanford, CA 94305-4060, USAA. V. FilippenkoMiller Institute for Basic Research in Science, University of California, Berkeley, CA 94720, USAThomas G. BrinkDepartment of Astronomy, University of California, Berkeley, CA 94720-3411, USAWeiKang ZhengDepartment of Astronomy, University of California, Berkeley, CA 94720-3411, USAJ. P. HalpernColumbia Astrophysics Laboratory, Columbia University, New York, NY 10027, USAF. CamiloSouth African Radio Astronomy Observatory, Observatory 7925, South Africa
2019en
ABI

Аннотация

Abstract We collect new and archival optical observations of nine “black-widow” millisecond pulsar binaries. New measurements include direct imaging with the Keck, Gemini-S, MDM, and Las Cumbres Observatory 2 m telescopes. This is supplemented by synthesized colors from Keck long-slit spectra. Four black-widow optical companions are presented here for the first time. Together these data provide multicolor photometry covering a large fraction of the orbital phase. We fit these light curves with a direct (photon) heating model using a version of the ICARUS light-curve modeling code. The fits provide distance and fill-factor estimates, inclinations, and heating powers. We compare the heating powers with the observed GeV luminosities, noting that the ratio is sensitive to pulsar distance and to the gamma-ray beaming. We make a specific correction for “outer gap” model beams, but even then some sources are substantially discrepant, suggesting imperfect beaming corrections and/or errors in the fit distance. The fits prefer large metal abundance for half of the targets, a reasonable result for these wind-stripped secondaries. The companion radii indicate substantial Roche-lobe filling, f c ≈ 0.7−1 except for PSR J0952−0607, which with f c < 0.5 has a companion density ρ ≈ 10 g cm −3 , suggesting unusual evolution. We note that the direct-heating fits imply large heating powers and rather small inclinations, and we speculate that unmodeled effects can introduce such bias.

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