IGR J11014−6103 explained

IGR J11014−6103, also called the Lighthouse Nebula, is a pulsar wind nebula trailing the neutron star which has the longest relativistic jet observed in the Milky Way galaxy.

Description

The object consists of a neutron star with a radius of about 12 km, which formed about 10,000–30,000 years ago in a supernova explosion. The supernova explosion "kicked" the neutron star, which is now moving through space with a velocity of between 0.3% and 0.8% of the speed of light, faster than almost all other known runaway neutron stars. The pulsar is now about 60 light-years from the original supernova location.

The neutron star is the source of a relativistic helical jet, which is observed in X-rays but has no detected radio signature.^[1] In the composite processed image (right) the neutron star pulsar is the point-like object with a pulsar wind nebula tail trailing behind it for about 3 light-years. The jet, aligned with the pulsar rotation axis, is perpendicular to the pulsar's trajectory and extends out over 37 light-years (about nine times the distance from the Sun to the nearest visible star). The estimated velocity of the jet is about 80% of the speed of light.

The star was initially presumed to be rapidly spinning but later measurements indicate that its spin rate is only 15.9 Hz.^{[2] [3]} This rather slow spin rate and the fact that there is no evidence of accretion suggests that the jet is neither rotation nor accretion powered. A counter-jet (not shown in the image) has been detected, but is much fainter, possibly due to relativistic beaming.^{[4] [5]} The origin of the glitch at about a third of the jet length is not known, but it might be due to the jet switching off and on or the jet orientation changing.

External links

• The long helical jet of the Lighthouse nebula
• The Lighthouse nebula, NASA: Astronomy Picture of the Day, 2014 February 21
• A lighthouse pulsar (German)

Notes and References

1. Web site: Runaway pulsar has astronomers scratching their heads. News in Science (ABC Science). 2014-02-19.
2. The long helical jet of the Lighthouse nebula, IGR J11014-6103. 10.1051/0004-6361/201322588. Astronomy & Astrophysics. 562. A122. 2014. Pavan. L.. Bordas. P.. Pühlhofer. G.. Filipović. M. D.. De Horta. A.. O'Brien. A.. Balbo. M.. Walter. R.. Bozzo. E.. Ferrigno. C.. Crawford. E.. Stella. L.. 1309.6792 . 2014A&A...562A.122P . 118845324 . Long helical jet of Lighthouse nebula page 7
3. 1410.2332 . Halpern . J. P. . Discovery of X-ray Pulsations from the INTEGRAL Source IGR J11014-6103 . The Astrophysical Journal . 795 . 2 . L27 . Tomsick . J. A. . Gotthelf . E. V. . Camilo . F. . Ng . C. -Y. . Bodaghee . A. . Rodriguez . J. . Chaty . S. . Rahoui . F. . 2014 . 10.1088/2041-8205/795/2/L27 . 2014ApJ...795L..27H . 118637856 .
4. 1984ApJ...278..364L. Limits on the gravitational redshift form neutron stars. Astrophysical Journal. 278. 364. Lindblom. L.. 1984. 10.1086/161800.
5. The surface gravitational redshift of the massive neutron star PSR J0348+0432. Xian-Feng . Zhao. Huan-Yu . Jia. 103–108. Revista Mexicana de Astronomía y Astrofísica. 0185-1101. 50 . 1. 2014. 2014RMxAA..50..103Z .