A Black Hole in the Superluminal source SAX J1819.3-2525 (V4641 Sgr)

Jerome A. Orosz (Utrecht University; The Netherlands); Erik Kuulkers; (Space Research Organization Netherlands); Michiel van der Klis (University; of Amsterdam); Jeffrey E. McClintock; Michael R. Garcia; (Harvard-Smithsonian Center for Astrophysics) Paul J. Callanan (University; College; Cork; Ireland); Charles D. Bailyn; Raj K. Jain (Yale University),; and Ronald A. Remillard (Massachusetts Institute of Technology)

arXiv:astro-ph/0103045·astro-ph·November 6, 2009·3 cites

A Black Hole in the Superluminal source SAX J1819.3-2525 (V4641 Sgr)

Jerome A. Orosz (Utrecht University, The Netherlands), Erik Kuulkers, (Space Research Organization Netherlands), Michiel van der Klis (University, of Amsterdam), Jeffrey E. McClintock, Michael R. Garcia, (Harvard-Smithsonian Center for Astrophysics) Paul J. Callanan (University

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TL;DR

This study confirms the presence of a black hole in V4641 Sgr through spectroscopic and photometric analysis, revealing its mass and orbital characteristics, and establishing it as a superluminal jet source.

Contribution

The paper provides detailed measurements of the orbital parameters and mass estimates of the black hole in V4641 Sgr, using combined spectroscopic and photometric data, which was not previously established.

Findings

01

Mass of the black hole is between 8.73 and 11.70 solar masses.

02

The secondary star is a late B-type star with evolved characteristics.

03

The system's inclination is between 60 and 70.7 degrees.

Abstract

(shortened) Spectroscopic observations of the fast X-ray transient and superluminal jet source SAX J1819.3-2525 (V4641 Sgr) reveal a best fitting period of P_spect=2.81678 +/- 0.00056 days and a semiamplitude of K_2=211.0 +/- 3.1 km/sec. The optical mass function is f(M)=2.74 +/- 0.12 solar masses. We find a photometric period of P_photo=2.81730 +/- 0.00001 days using a light curve measured from photographic plates. The folded light curve resembles an ellipsoidal light curve with two maxima of roughly equal height and two minima of unequal depth per orbital cycle. The secondary star is a late B-type star which has evolved off the main sequence. Using a moderate resolution spectrum (R=7000) we measure T_eff=10500 +/- 200K, log(g)=3.5 +/- 0.1, and V_rot*sin(i)=123 +/- 4 km/sec (1 sigma errors). Assuming synchronous rotation, our measured value of the projected rotational velocity implies…

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Taxonomy

TopicsAstrophysical Phenomena and Observations · Pulsars and Gravitational Waves Research · Relativity and Gravitational Theory