2010A&A...519A..50K

Query : 2010A&A...519A..50K

2010A&A...519A..50K - Astronomy and Astrophysics, volume 519, A50-50 (2010/9-1)

Comoving frame models of hot star winds. I. Test of the Sobolev approximation in the case of pure line transitions.

KRTICKA J. and KUBAT J.

Abstract (from CDS):

We provide hot star wind models with radiative force calculated using the solution of comoving frame (CMF) radiative transfer equation. The wind models are calculated for the first stars, O stars, and the central stars of planetary nebulae. We show that without line overlaps and with solely thermal line broadening the pure Sobolev approximation provides a reliable estimate of the radiative force even close to the wind sonic point. Consequently, models with the Sobolev line force provide good approximations to solutions obtained with non-Sobolev transfer. Taking line overlaps into account, the radiative force becomes slightly lower, leading to a decrease in the wind mass-loss rate by roughly 40%. Below the sonic point, the CMF line force is significantly lower than the Sobolev one. In the case of pure thermal broadening, this does not influence the mass-loss rate, as the wind mass-loss rate is set in the supersonic part of the wind. However, when additional line broadening is present (e.g., the turbulent one) the region of low CMF line force may extend outwards to the regions where the mass-loss rate is set. This results in a decrease in the wind mass-loss rate. This effect can at least partly explain the low wind mass-loss rates derived from some observational analyses of luminous O stars.

Abstract Copyright: ∼

Journal keyword(s): stars: winds, outflows - stars: mass-loss - stars: early-type - hydrodynamics - radiative transfer

Simbad objects: 16

Full paper

View the references in ADS

Number of rows : 16

N	Identifier	Otype	ICRS (J2000) RA	ICRS (J2000) DEC	Mag U	Mag B	Mag V	Mag R	Mag I	Sp type	#ref 1850 - 2023	#notes
1	* ksi Per	**	03 58 57.9022917	+35 47 27.713205	3.190	4.080	4.060	3.88	3.89	O7.5III(n)((f))	825	0
2	IC 418	PN	05 27 28.2059533560	-12 41 50.282287764		9.405	9.010	10.118		O7fp	1025	2
3	* iot Ori	SB*	05 35 25.9819073	-05 54 35.643537	1.45	2.53	2.77			O9IIIvar	768	0
4	* 15 Mon	Be*	06 40 58.65963	+09 53 44.7229	3.360	4.45	4.68		4.88	O7V+B1.5/2V	795	0
5	HD 54662	SB*	07 09 20.2493151288	-10 20 47.635088964	5.35	6.24	6.21	7.23		O6.5Vz(n)+O7.5Vz	339	2
6	NGC 2392	PN	07 29 10.7671398096	+20 54 42.474888072			9.68			O6f	721	1
7	NGC 3242	PN	10 24 46.1335521792	-18 38 32.296857792		11.83	12.15			~	817	1
8	HD 93204	EB*	10 44 32.3390794992	-59 44 31.020804780	7.63	8.52	8.42	8.20	7.92	O5.5V((f))	186	0
9	CPD-51 6744	PN	14 18 08.8853838456	-52 10 39.516692592		12.39	11.98			[WC]	153	0
10	IC 4593	PN	16 11 44.5479462840	+12 04 17.031388584		10.91	10.84			O7fp	452	0
11	* zet Oph	Be*	16 37 09.5390545	-10 34 01.529471	1.73	2.58	2.56	2.46	2.50	O9.2IVnn	1824	2
12	IC 4637	PN	17 05 10.47	-40 53 07.7			9.20			~	132	0
13	PN Tc 1	PN	17 45 35.2879212240	-46 05 23.717122728		11.30	11.49			PCyg	256	0
14	NGC 6826	PN	19 44 48.1500225888	+50 31 30.249034932		9.779	9.359	10.775		O3f(H)	717	0
15	* 68 Cyg	SB*	21 18 27.1862219256	+43 56 45.399147864	4.05	4.99	5.00			O7.5IIIn((f))	372	0
16	* 19 Cep	*	22 05 08.7897533088	+62 16 47.332569936	4.36	5.19	5.11	4.95	4.92	O9Ib	377	0

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