EVIDENCE FOR MASS OUTFLOW FROM THE NUCLEUS OF M101 - KNOTS, RINGS, AND A GEYSER

MOODY, JW; ROMING, PWA; JONER, MD; HINTZ, EG; GEISLER, D; DURRELL, PR; SCOWEN, PA; JEE, RO

Abstract

H alpha on-line and off-line CCD images of M101 obtained with the Canada-France-Hawaii 3.6 m telescope show the presence of two H alpha bright, filled knots paired Linearly across the nucleus in a north-south orientation. The knots are centered 2.4 '' (85 pc, assuming a distance to M101 of 7.4 Mpc) from the nucleus and lie roughly perpendicular to an east-west molecular bar. Each knot in turn is connected to an elongated, photoionized ring lying parallel along the bar. The eastern ring, connected to the southern knot, reaches outward in a well-defined 500X200 pc oval. The 700X300 pc western ring, connected to the northern knot, is more broken and dissipated in the middle. An arc containing blue stars and/or significant H alpha absorption lies along the southern side of a dust lane extending from the nucleus westward along the bar. Hubble Space Telescope Planetary Camera image data show pockets of star-forming regions to the east and to the south of the nucleus which are associated with the knot and ring in that half. The imaging data, together with velocity data obtained with the Coude' feed spectrometer at Kitt Peak National Observatory show that the knots and rings are likely a bipolar outflow originating from a velocity 100 km s(-1) ''geyser'' which has a period of approximately 22 million years and is located in the nucleus. The geyser may be caused by a mass 10(6) M(.) black hole orbiting within the nucleus, sweeping material from the molecular bar. (C) 1995 American Astronomical Society.

Más información

Título según WOS: ID WOS:A1995TB50200009 Not found in local WOS DB
Título de la Revista: ASTRONOMICAL JOURNAL
Volumen: 110
Número: 5
Editorial: IOP PUBLISHING LTD
Fecha de publicación: 1995
Página de inicio: 2088
Página final: +
DOI:

10.1086/117671

Notas: ISI