Temporal and spectral analyses from BeppoSAX observations of AM Her performed during both an intermediate and a high stare are presented and discussed. Optical observations taken a few days after the X-ray ones are also presented. During the intermediate state observation, the source was in its "normal", one-pole accretion mode. In the high state it switched to an hitherto unobserved atypical "two-pole" accretion mode, with significant soft and hard X-ray emission from both poles. The emission from the second pole is much softer than that from the primary pole, while the soft X-ray excess of the primary pole is fairly modest in this accretion mode. These facts suggest that accretion onto the secondary is mainly due to blobs penetrating deeply in the photosphere, while that on the primary pole is mostly via a more homogeneous column, giving rise to the classical standing shock. A strong X-ray flaring activity is also observed in the soft X-ray band, but not in the hard X-ray and optical emissions indicating that flares are due to inhomogeneous blobby-accretion events.

Matt, G., de Martino, D., Gansicke, B.t., Negueruela, I., Silvotti, R., Bonnet Bidaud, J.m., et al. (2000). BeppoSAX observations of AM Herculis in intermediate and high states. ASTRONOMY & ASTROPHYSICS, 358(1), 177-186.

BeppoSAX observations of AM Herculis in intermediate and high states

MATT, Giorgio;
2000-01-01

Abstract

Temporal and spectral analyses from BeppoSAX observations of AM Her performed during both an intermediate and a high stare are presented and discussed. Optical observations taken a few days after the X-ray ones are also presented. During the intermediate state observation, the source was in its "normal", one-pole accretion mode. In the high state it switched to an hitherto unobserved atypical "two-pole" accretion mode, with significant soft and hard X-ray emission from both poles. The emission from the second pole is much softer than that from the primary pole, while the soft X-ray excess of the primary pole is fairly modest in this accretion mode. These facts suggest that accretion onto the secondary is mainly due to blobs penetrating deeply in the photosphere, while that on the primary pole is mostly via a more homogeneous column, giving rise to the classical standing shock. A strong X-ray flaring activity is also observed in the soft X-ray band, but not in the hard X-ray and optical emissions indicating that flares are due to inhomogeneous blobby-accretion events.
2000
Matt, G., de Martino, D., Gansicke, B.t., Negueruela, I., Silvotti, R., Bonnet Bidaud, J.m., et al. (2000). BeppoSAX observations of AM Herculis in intermediate and high states. ASTRONOMY & ASTROPHYSICS, 358(1), 177-186.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11590/122015
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