Centaurus X-3

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Centaurus X-3
Observation data
Epoch J2000      Equinox J2000
Constellation Centaurus
Right ascension 11h 21m 15.78s[1]
Declination –60° 37′ 22.7″[1]
Apparent magnitude (V) 13.25[2]
Characteristics
Spectral type O6.5II[3]
Astrometry
Distance 18.6 ± 4.9 kly (5.7 ± 1.5 kpc)[4] ly
Details
Krzeminski's star
Mass 20.5 ± 0.7[4] M
Radius 12[4] R
Luminosity 0.63[citation needed] L
X-ray component
Mass 1.21 ± 0.21[4] M
Other designations
V779 Cen, 1RXS J112115.4-603725, 4U 1118-60.[3]

Centaurus X-3 (4U 1118-60) is an X-ray pulsar with a period of 4.84 seconds. It was the first X-ray pulsar to be discovered, and the third X-ray source to be discovered in the constellation Centaurus. The system consists of a neutron star orbiting a massive, O-type supergiant star dubbed Krzeminski's star after its discoverer. Matter is being accreted from the star onto the neutron star, resulting in X-ray emission.

History

Centaurus X-3 was first observed during experiments of cosmic X-ray sources made on May 18, 1967. These initial X-ray spectrum and location measurements were performed using a sounding rocket.[5] In 1971, further observations were performed with the Uhuru satellite, in the form of twenty-seven 100-second duration sightings. These sightings were found to pulsate with an average period of 4.84 seconds,[6] with a variation in the period of 0.02 seconds. Later, it became clear that the period variations followed a 2.09 day sinusoidal curve around the 4.84 second period. These variations in arrival time of the pulses were attributed to the Doppler effect caused by orbital motion of the source, and were therefore evidence for the binary nature of Centaurus X-3.[7]

Despite detailed data from the Uhuru satellite as to the orbital period of the binary, and the pulsation period in the X-ray band as well as the minimum mass of the occulting star, the optical component remained undiscovered for three years. This was partly because Cen X-3 lies in the plane of the Galaxy in the direction of the Carina Spiral Arm, and so observations were forced to differentiate among dozens of faint objects. Centaurus X-3 was finally identified with a faint, heavily reddened variable star lying just outside the error box predicted by Uhuru observations.[8] The visible star was later named after its discoverer, Poland astronomer Wojtek Krzemiński.

System

Centaurus X-3 is located in the galactic plane about 5.7 kiloparsecs away,[4] towards the direction of the Carina–Sagittarius Arm, and is a member of an occulting spectroscopic binary system. The visible component is Krzeminski's Star, a supergiant; the X-ray component is a rotating, magnetized neutron star.

X-ray component

The X-ray emission is fueled by the accretion of matter from the distended atmosphere of the blue giant falling through the inner Lagrangian point, L1. The overflowing gas probably forms an accretion disc and ultimately spirals inwards and falls on to the neutron star, releasing gravitational potential energy. The magnetic field of the neutron star channels the inflowing gas onto localized hot spots on the neutron star surface where the X-ray emission occurs.

The neutron star is regularly eclipsed by its giant companion every 2.1 days;[4] these regular X-ray eclipses last approximately 1/4 the orbital period. There are also sporadic X-ray off durations.

The spin period history of Centaurus X-3 shows a spin-up trend that is very prominent in the long term decrease in its pulse period. This spin-up was first noted in Centaurus X-3 and Hercules X-1 and is now noted in other X-ray pulsars. The most feasible way of explaining the origin of this effect is by a torque exerted on the neutron star by accreting material.

Krzeminski's Star

Krzeminski's Star is a 20.5 solar mass (M), slightly evolved blue supergiant with a radius of 12 solar radii (R) and spectral type O6.5II.[3][4]

There is little doubt as to the correctness of the optical candidate, since it is in apparent agreement with the period and phase of Cen X-3, and exhibits the same similarity in its double wave and amplitude light curve seen in other known massive binary systems. The double wave ellipsoidal light variations are produced by a tidally deformed giant that nearly fills its Roche lobe. The visible component corresponds to an OB II class star, comparable with the mass derived from X-ray data, consistent with the minimum radius that has been fixed by X-ray eclipse duration.

See also

References

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External links

Coordinates: Sky map 11h 21m 15.78s, −60° 37′ 22.7″

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