2006A&A...454..595G

Query : 2006A&A...454..595G

2006A&A...454..595G - Astronomy and Astrophysics, volume 454, 595-607 (2006/8-1)

X-ray emission from T Tauri stars in the Lupus 3 star-forming region.

GONDOIN P.

Abstract (from CDS):

In this paper, I present analysis results of an XMM-Newton observation of the Lupus 3 region that contains a high proportion of young low mass (M<0.3M_☉) T Tauri stars in the Lupus star-forming complex. The detection of X-ray sources in 0.5 to 4.5keV images of the Lupus 3 core was performed using the standard source detection method of the XMM-Newton Science Analysis Software. The detected sources were correlated with a list of Herbig-Haro objects and H_α emission stars that contains mainly classical T Tauri stars, with a catalogue of weak-line T Tauri Stars and with a recent list of new low-mass members of the Lupus 3 dark cloud found in a visible-light spectroscopic survey at the center of the Lupus 3 star-forming core. The light curves and spectra of the brightest X-ray sources with known T Tauri star counterparts were analysed. One hundred and two X-ray sources were detected in the 30' diameter field-of-view of the EPIC cameras, of which 25 have visible or near-IR counterparts that are known as pre-main sequence stars. Their X-ray luminosity ranges from 3x10²⁸ to 3x10³⁰erg/s. Two of these objects with mass estimates lower than 0.075M_☉ have an X-ray luminosity of about 4-7x10²⁸erg/s, comparable with that of flaring young brown dwarfs. A linear correlation is found between the X-ray luminosity and the mass or volume of the stars that is qualitatively expected from some models of distributed turbulent dynamos. The EPIC spectra of the X-ray brightest sources can be fitted using optically thin plasma emission models with two components at temperatures in the ranges 3-9x10⁶K and 1-50x10⁷K, respectively. The large emission measure of hot plasma may be caused by disruptions of magnetic fields associated with an intense flaring activity, while the X-ray emission from the ``cool'' plasma components may result from solar-type active regions. The emission measures of the plasma components are of the order of 10⁵²cm^–3, typical of the values expected from coronal plasmas in T Tauri stars, post-T Tauri stars, and active late-type dwarfs in close binary systems. One property of the X-ray brightest stars in Lupus 3 that seems common among pre-main sequence stars is the low abundance of Fe.

Abstract Copyright: ∼

Journal keyword(s): stars: activity - stars: atmospheres - stars: coronae - stars: evolution - stars: low-mass, brown dwarfs - stars: late-type

VizieR on-line data: <Available at CDS (J/A+A/454/595): table6.dat>

Nomenclature: Table 6: [G2006] NNN (Nos 1-102).

CDS comments: Paragraph 3.1. Bianco 1 is a probable misprint for Blanco 1.

Simbad objects: 122

Full paper

View the references in ADS

Number of rows : 122

N	Identifier	Otype	ICRS (J2000) RA	ICRS (J2000) DEC	Mag U	Mag B	Mag V	Mag R	Mag I	Sp type	#ref 1850 - 2024	#notes
1	Cl Blanco 1	OpC	00 03 24.7	-29 57 29						~	325	0
2	IC 348	OpC	03 44 31.7	+32 09 32						~	1392	1
3	Cl Melotte 22	OpC	03 46 24.2	+24 06 50						~	3433	0
4	NAME Taurus Complex	SFR	04 41.0	+25 52						~	4414	0
5	NAME Orion Nebula Cluster	OpC	05 35.0	-05 29						~	2330	0
6	IC 2391	OpC	08 41 10.1	-52 59 28						~	822	0
7	NAME Chamaeleon Region	SFR	11 55	-78.0						~	806	0
8	Lupus 1	Cld	15 43 02.1	-34 09 06						~	285	0
9	Lupus 2	MoC	15 57 08	-37 47.1						~	114	1
10	Lupus 4	MoC	16 03 12.4	-42 07 43						~	152	0
11	[G2006] 1	X	16 07 28.1	-39 06 35						~	1	0
12	[G2006] 2	X	16 07 34.6	-39 04 22						~	1	0
13	[G2006] 3	X	16 07 35.3	-39 05 49						~	1	0
14	[G2006] 4	X	16 07 43.7	-39 01 42						~	1	0
15	[G2006] 5	X	16 07 44.8	-39 00 55						~	1	0
16	[G2006] 6	X	16 07 46.2	-39 01 53						~	1	0
17	[G2006] 7	X	16 07 49.3	-39 02 03						~	1	0
18	Sz 94	TT*	16 07 49.5974149968	-39 04 28.760342844		16.31	16.00	14.76	12.90	~	32	0
19	[G2006] 9	X	16 07 49.9	-39 15 36						~	1	0
20	Sz 95	TT*	16 07 52.3109740056	-38 58 06.091698756		16.714	15.189	14.934	12.53	~	53	0
21	SONYC Lup3-3	LM*	16 07 55.1838796776	-39 06 03.793003452				18.83	16.06	M6.5	6	0
22	[G2006] 12	X	16 07 57.6	-39 02 40						~	1	0
23	RX J1608.0-3857	TT*	16 07 59.971704	-38 57 51.00912	15.16	14.276	12.830	12.503	10.819	~	15	0
24	[G2006] 14	X	16 08 00.3	-39 03 04						~	1	0
25	[G2006] 15	*	16 08 01.0621900416	-38 56 50.916936912						~	1	0
26	[G2006] 16	X	16 08 01.9	-39 12 32						~	2	0
27	[G2006] 17	*	16 08 02.2948960248	-39 08 31.485111576						~	1	0
28	[G2006] 18	X	16 08 03.0	-39 16 00						~	1	0
29	[G2006] 19	X	16 08 05.4	-39 02 18						~	1	0
30	[G2006] 20	X	16 08 06.1	-39 13 42						~	1	0
31	[G2006] 21	X	16 08 10.5	-39 00 24						~	1	0
32	2MASS J16081096-3910459	TT*	16 08 10.9590962904	-39 10 45.934592664	15.15	14.08	12.84	12.06	11.38	~	13	0
33	[G2006] 23	X	16 08 11.0	-39 05 13						~	1	0
34	Sz 96	TT*	16 08 12.6308620920	-39 08 33.470354256		14.80	13.43	13.69	11.84	~	79	0
35	[G2006] 25	X	16 08 14.0	-39 12 22						~	1	0
36	[G2006] 26	X	16 08 15.1	-39 16 58						~	1	0
37	SONYC Lup3-5	LM*	16 08 16.0404001440	-39 03 04.320708732		17.74	19.92	18.15	15.28	M7.5	26	0
38	[G2006] 27	X	16 08 16.1	-39 17 14						~	1	0
39	[G2006] 29	X	16 08 16.7	-39 16 05						~	1	0
40	UCAC3 102-194744	Y*O	16 08 17.3983005480	-39 01 06.179222856				15.21	13.31	~	7	0
41	[G2006] 31	X	16 08 17.4	-39 15 06						~	1	0
42	[G2006] 32	X	16 08 17.7	-38 55 56						~	1	0
43	[G2006] 33	X	16 08 17.9	-38 59 35						~	1	0
44	[G2006] 34	X	16 08 18.8	-39 16 58						~	1	0
45	[G2006] 35	X	16 08 19.4	-39 00 36						~	1	0
46	THA 15-24	Y*O	16 08 21.8037909864	-39 04 21.491863824		16.18	14.61	14.67	12.92	M3	58	0
47	V* V1279 Sco	Or*	16 08 22.4935277520	-39 04 46.427612052		14.99	13.66	11.70	11.21	M0.4	119	1
48	2MASS J16082279-3900591	TT*	16 08 22.7935199352	-39 00 59.059019664			15.05	15.02	12.75	~	15	0
49	THA 15-25	Y*O	16 08 24.0422612880	-39 05 49.433170740		15.49	16.00	15.39	14.17	M3.5	49	0
50	[G2006] 38	X	16 08 24.9	-39 03 10						~	1	0
51	[G2006] 39	X	16 08 25.4	-39 02 52						~	1	0
52	[G2006] 40	X	16 08 25.7	-39 05 24						~	1	0
53	THA 15-26	Y*O	16 08 25.7633674272	-39 06 01.247043888		16.62	15.43	14.97	13.12	M5	66	0
54	[G2006] 42	X	16 08 27.0	-39 06 44						~	1	0
55	[G2006] 43	X	16 08 27.1	-39 01 44						~	1	0
56	V* V1093 Sco	TT*	16 08 27.7818643128	-39 00 40.623399936			14.57	13.54	12.20	~	16	0
57	THA 15-27	Y*O	16 08 28.43136	-39 05 32.4312		17.03	15.46	14.00	12.35	M4	29	0
58	[G2006] 46	X	16 08 29.0	-39 09 24						~	1	0
59	[G2006] 47	X	16 08 29.4	-39 14 29						~	1	0
60	[G2006] 48	X	16 08 29.4	-39 08 01						~	1	0
61	[G2006] 49	X	16 08 29.7	-39 00 08						~	1	0
62	WRAY 16-203	Or*	16 08 29.7275063376	-39 03 11.024360496		16.26	15.91	15.38	15.69	K0:	170	1
63	THA 15-29	Y*O	16 08 30.2687378568	-39 06 11.176056000		14.8	11.14	15.18	13.15	M4	64	0
64	[G2006] 51	X	16 08 30.8	-38 59 29						~	1	0
65	THA 15-30	TT*	16 08 30.8142130416	-39 05 48.837746436		15.2	15.25	13.96	13.57	M5	61	0
66	[MJS2008] 52	Y*O	16 08 31.10	-38 56 00.0				21.60	20.74	~	11	0
67	[G2006] 53	X	16 08 31.8	-38 58 51						~	1	0
68	[G2006] 54	X	16 08 32.5	-38 58 26						~	1	0
69	[G2006] 55	X	16 08 33.2	-38 57 58						~	1	0
70	[G2006] 57	X	16 08 33.8	-39 00 10						~	1	0
71	[G2006] 58	X	16 08 34.1	-38 57 24						~	1	0
72	V* V856 Sco	Ae*	16 08 34.2870044544	-39 06 18.325711332	7.66	7.41	7.05	6.92		A9V_sh	388	0
73	V* V1027 Sco	a2*	16 08 34.5616203192	-39 05 34.278268848		6.552	6.629	6.66		A0/3III	193	0
74	2MASS J16083547-3900358	**	16 08 35.47512	-39 00 35.8416					13.88	M6.5	6	0
75	UCAC3 102-194847	Y*O	16 08 35.7826940376	-39 03 47.933557092		16.88	15.49	15.02	13.09	M6	28	0
76	[G2006] 61	X	16 08 35.8	-38 56 23						~	1	0
77	[G2006] 63	X	16 08 37.2	-38 55 36						~	1	0
78	2MASS J16083738-3858474	*	16 08 37.3864160880	-38 58 47.430331104						~	1	0
79	[G2006] 65	X	16 08 38.7	-38 54 39						~	1	0
80	[G2006] 66	X	16 08 39.1	-39 15 26						~	1	0
81	[G2006] 67	X	16 08 39.3	-38 54 09						~	1	0
82	[G2006] 68	X	16 08 39.7	-38 53 53						~	1	0
83	Sz 106	Y*O	16 08 39.7597402848	-39 06 25.321212288		15.1		15.00	14.66	M2.5	47	0
84	[G2006] 69	X	16 08 40.5	-39 15 52						~	1	0
85	[G2006] 70	X	16 08 40.6	-39 18 40						~	1	0
86	[G2006] 71	X	16 08 40.9	-38 53 10						~	1	0
87	[G2006] 72	X	16 08 41.6	-39 06 44						~	2	0
88	Sz 107	Y*O	16 08 41.7980924472	-39 01 37.038551232		17.31	16.06	15.42	13.20	M5.5	40	0
89	Sz 108	TT*	16 08 42.7394012688	-39 06 18.313411608		14.497	13.058	12.824	11.16	~	39	0
90	TYC 7851-1158-1	*	16 08 44.1429033480	-38 57 16.013672928		12.05	11.26			~	1	0
91	[G2006] 76	X	16 08 45.5	-38 55 31						~	1	0
92	[MJS2008] 61	Y*O	16 08 46.79	-39 02 07.4				22.28	21.04	~	7	0
93	V* V1191 Sco	Or*	16 08 48.1612456128	-39 04 19.195145724		18.23	16.43	15.71	13.57	M6.5	22	0
94	[G2006] 79	X	16 08 48.5	-39 10 02						~	1	0
95	[G2006] 81	X	16 08 49.3909011480	-39 17 59.808742044						~	1	0
96	IRAS 16054-3857	Y*O	16 08 49.3987083072	-39 05 39.447341844		16.76	17.71	15.89	14.24	M4.5	53	0
97	[G2006] 82	*	16 08 49.6916979408	-39 01 22.509120036						~	2	0
98	V* V1192 Sco	Or*	16 08 51.4348063536	-39 05 30.460358652			21.9	18.97	18.18	M5	72	0
99	V* V1193 Sco	Or*	16 08 51.5693655096	-39 03 17.707587264		15.27	14.58	13.72	12.28	M4.5	70	0
100	[G2006] 84	X	16 08 51.8	-38 55 18						~	1	0
101	[G2006] 85	X	16 08 52.2	-39 12 11						~	1	0
102	UCAC3 102-194910	Y*O	16 08 53.2420957464	-39 14 40.160339952		17.53	16.35	15.35	13.52	M3	49	1
103	RX J1608.9-3905	TT*	16 08 54.2744987760	-39 06 05.799061764	12.57	11.91	10.88	10.28	9.74	~	24	0
104	Sz 112	Y*O	16 08 55.5289090032	-39 02 33.941081832		16.62	15.39	14.78	12.93	M6	67	0
105	THA 15-34	Y*O	16 08 57.8026653048	-39 02 22.853868252		17.46	16.50	16.64	14.65	M6	59	0
106	2MASS J16085953-3856275	Y*O	16 08 59.5395612120	-38 56 27.592929708				19.25	16.91	M8.5e	33	0
107	[G2006] 90	X	16 09 00.3	-39 18 33						~	1	0
108	[G2006] 91	X	16 09 00.9	-39 14 12						~	1	0
109	THA 15-35	Or*	16 09 01.8486544824	-39 05 12.414717240		15.33	14.12	14.35	12.54	M5.5	108	0
110	[G2006] 93	X	16 09 03.6	-38 58 53						~	1	0
111	Sz 115	TT*	16 09 06.2137580736	-39 08 51.873869400		16.88	15.48	15.09	13.12	~	50	0
112	2MASS J16090850-3903430	Y*O	16 09 08.5062297456	-39 03 43.080273612		18.00	16.60	16.43	14.16	~	14	0
113	[G2006] 96	X	16 09 10.6	-39 06 59						~	2	0
114	[G2006] 97	X	16 09 10.9	-39 13 42						~	1	0
115	[G2006] 98	X	16 09 11.0	-39 04 03						~	2	0
116	[G2006] 99	X	16 09 13.1	-39 12 55						~	1	0
117	[G2006] 100	X	16 09 13.7	-39 17 00						~	1	0
118	[G2006] 101	X	16 09 14.0	-39 15 29						~	1	0
119	Lupus 3	SFR	16 09.6	-39 03						~	323	0
120	[G2006] 102	PM*	16 09 36.8333440080	-39 01 45.470311320						~	2	0
121	NAME Ophiuchus Molecular Cloud	SFR	16 28 06	-24 32.5						~	3628	1
122	NAME Corona Australis Cloud	MoC	19 01 51	-36 58.9						~	490	0

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