Misaligned spin and orbital axes cause the anomalous precession of DI Herculis

Author(s)

Albrecht, Simon H.; Winn, Joshua Nathan; Reffert, Sabine; Snellen, Ignas A.G.

Abstract

The orbits of binary stars precess as a result of general relativistic effects, forces arising from the asphericity of the stars, and forces from additional stars or planets in the system. For most binaries, the theoretical and observed precession rates are in agreement1. One system, however—DI Herculis—has resisted explanation for 30 years2–4. The observed precession rate is a factor of four slower than the theoretical rate, a disagreement that once was interpreted as evidence for a failure of general relativity5. Among the contemporary explanations are the existence of a circumbinary planet6 and a large tilt of the stellar spin axes with respect to the orbit7,8. Here we report that both stars of DI Herculis rotate with their spin axes nearly perpendicular to the orbital axis (contrary to the usual assumption for close binary stars). The rotationally induced stellar oblateness causes precession in the direction opposite to that of relativistic precession, thereby reconciling the theoretical and observed rates.

Date issued

2009-09

URI

http://hdl.handle.net/1721.1/58482

Department

Massachusetts Institute of Technology. Department of Physics
MIT Kavli Institute for Astrophysics and Space Research

Journal

Nature

Publisher

Nature Publishing Group

Citation

Albrecht, Simon et al. “Misaligned spin and orbital axes cause the anomalous precession of DI[thinsp]Herculis.” Nature 461.7262 (2009): 373-376. © 2009 Nature Publishing Group.

Version: Author's final manuscript

ISSN

0028-0836

1476-4687