The Unusual 2001 Periastron Passage in the ``Clockwork'' Colliding-Wind Binary WR 140

Marchenko, S. V.; Moffat, A. F. J.; Ballereau, D.; Chauville, J.; Zorec, J.; Hill, G. M.; Annuk, K.; Corral, L. J.; Demers, H.; Eenens, P. R. J.; Panov, K. P.; Seggewiss, W.; Thomson, J. R.; Villar-Sbaffi, A.
Bibliographical reference

The Astrophysical Journal, Volume 596, Issue 2, pp. 1295-1304.

Advertised on:
10
2003
Number of authors
14
IAC number of authors
1
Citations
77
Refereed citations
53
Description
We follow, using both optical spectroscopy and photometry, the ``textbook'' colliding-wind WR+O binary WR 140 through and between the periastron passages of 1993 and 2001. An extensive collection of high-quality spectra allows us to derive precise orbital elements for both components simultaneously. We confirm the extremely high eccentricity of the system, e=0.881+/-0.005, find an excellent match of the newly derived period to the previous estimates, P=2899.0+/-1.3 days, and improve the accuracy of the time of periastron passage, T0=HJD2,446,147.4+/-3.7. Around periastron, at orbital phases φ~0.995-1.015, additional emission components appear on the tops of the broad Wolf-Rayet emission lines of relatively low ionization potential. The phase-dependent behavior of these excess line emissions points to their origin in the wind-wind collision zone, which allows us to place some limits on the orbital inclination of the system, i=50deg+/-15deg, and half-opening angle of the bow shock cone, θ=40deg+/-15deg. The relatively sudden appearance and disappearance of the extra emission components probably signify a rapid switch from an adiabatically to a radiatively dominated regime and back again. Multiyear UBV photometry provides one more surprise: in 2001 at φ=0.02-0.06, the system went through a series of rapid, eclipse-like events. Assuming these events to be related to an episode of enhanced dust formation at periastron, we estimate the characteristic size of the dust grains to be a~0.07 μm.
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