Rapid Changes in the Optical Intensity and Radial Velocities of the X-Ray Source SCO X-1

doi:10.1086/149746

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Title:		Rapid Changes in the Optical Intensity and Radial Velocities of the X-Ray Source SCO X-1
Authors:		Westphal, J. A.; Sandage, Allan; Kristian, Jerome
Publication:		Astrophysical Journal, vol. 154, p.139-156 (ApJ Homepage)
Publication Date:		10/1968
Origin:		ADS
DOI:		10.1086/149746
Bibliographic Code:		1968ApJ...154..139W

Abstract

The optical flux of Sco X-1 was continuously monitored on five separate nights between April and June 1967. Pulse counting was used with sampling intervals of 5 sec on the 100- and 200-inch telescopes and 15 sec on the 60-inch reflector. The error due to photon statistics per sample interval was smaller than 0.007 mag in all cases. The data were processed entirely by computer, using a variety of special digital techniques. Rapid optical flickering with amplitudes of ~0.02 mag on a time scale of minutes was found on all five nights. These high-frequency fluctuations are superposed on slower continuous variations with amplitudes ~0.15 mag, and on occasional bursts of 0.2 mag which last about 10 min with very short rise and decay times. Radial velocities have been measured by a digital method of cross-correlation of microphotometer records of the original photographic plates (Westphal 1966). Velocity changes of about 100 km/s were found on two different singly trailed plates, each of 3 hours' duration. The hydrogen lines and He II (4686) change in opposite directions, similar to the extar Cyg X-2, suggesting, but not proving, binary motion. Systematic changes of velocity from night to night are set out in Table 2. The distance to Sco X-1 is estimated to be D ~ 500 pc by three methods, based on the strength of interstellar Ca II K, and on the old nova hypothesis. A firm lower limit of D > 300 pc seems well established. The total X-ray power is ~ 2x10³⁷ h² ergs/sec, where h is the distance in units of 500 pc. If the X-ray energy is due to bremsstrahlung, this level requires Sco X-1 to continuously pump energy into the hot plasma, replenishing the entire energy store of gas in the cooling time of t=3x10^-11 h^-1 R³/2 sec where R is the radius (in centimeters) of the plasma system. Reasonable values of 10¹¹ cm < R < 10¹² cm give 100 h^-1 < t < 3000 h^-1 sec, which, remarkably, is the characterisic time of the light flicker. Mechanical energy due to some type of low-Q oscillation of the system, similar in many respects to that observed in the Sun, seems capable of providing 10³⁷ ergs/sec to the plasma gas. The crucial experiment remains to simultaneously monitor the optical and the X-ray flux over periods of several hours. Detailed correlation of fluctuations is not expected, but the mean X-ray flux might plausibly be expected to vary in periods of fractions of an hour as the mean amplitude of the optical fluctuations changes.

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