| Name: | ABHISEK TAMANG |
| Affiliation: | INDIAN INSTITUTE OF SCIENCE & RAMAN RESEARCH INSTITUTE, BANGALORE |
| Conference ID : | ASI2024_456 |
| Title : | Probing the Stellar Wind in Vela X-1 with MAXI/GSC Data |
| Authors : | ABHISEK TAMANG 1, 2, KINJAL ROY 1, HEMANTH MANIKANTAN 1, AJITH BALU 1 AND BISWAJIT PAUL 1 |
| Authors Affiliation: | 1. ABHISEK TAMANG, KINJAL ROY, HEMANTH MANIKANTAN, AJITH BALU, BISWAJIT PAUL AFFILIATION (RAMAN RESEARCH INSTITUTE, BANGALORE - 560080, INDIA)
2. ABHISEK TAMANG AFFILIATION (INDIAN INSTITUTE OF SCIENCE, BANGALORE -560012, INDIA) |
| Mode of Presentation: | Poster |
| Abstract Category : | High Energy Phenomena, Fundamental Physics and Astronomy |
| Abstract : | Vela X−1 is one of the first few discovered High Mass X-ray Binary (HMXB) Pulsars with a B-type supergiant companion. In compact HMXB pulsars like Vela X−1, the companion’s stellar wind is significantly affected by ionization due to X-rays from the compact object. An isotopic stellar wind model alone cannot explain the orbital variations of absorption column density in Vela X−1. A simple accretion wake toy model was previously implemented to explain the observed orbital column density variations. We modelled the long-term spectrum of the source obtained with MAXI/GSC with the Comptonized emission of cold photons on hot electrons behind a thick column of photo-absorbing material. We use ∼14 years of MAXI/GSC data to constrain the variations of absorption column density in Vela X−1 using orbital-phase resolved spectral analysis. In this work, we use the above-mentioned model for the photo-ionized accretion wake around the Neutron Star(NS) to explain the asymmetric absorption column density present in the source. The long-term light curve of the source also showed orbit-to-orbit intensity level variations without any apparent super-orbital periodicity. Further analysis involving orbital-phase-resolved spectroscopy in multiple intensity levels revealed asymmetric variation in absorption column density changes across multiple intensity levels. The high-quality MAXI/GSC data allowed us to vary the different wake parameters to obtain the best-fit model parameters that closely resemble the observed orbital variations of absorption column density for different intensity levels of the source. |
