2009ApJ...698.1068P

Query : 2009ApJ...698.1068P

2009ApJ...698.1068P - Astrophys. J., 698, 1068-1094 (2009/June-3)

New debris disks around young, low-mass stars discovered with the Spitzer Space Telescope.

PLAVCHAN P., WERNER M.W., CHEN C.H., STAPELFELDT K.R., SU K.Y.L., STAUFFER J.R. and SONG I.

Abstract (from CDS):

We present 24 µm and 70 µm Multiband Imaging Photometer for Spitzer (MIPS) observations of 70 A through M-type dwarfs with estimated ages from 8 Myr to 1.1 Gyr, as part of a Spitzer guaranteed time program, including a re-analysis of some previously published source photometry. Our sample is selected from stars with common youth indicators such as lithium abundance, X-ray activity, chromospheric activity, and rapid rotation. We compare our MIPS observations to empirically derived K_s-[24] colors as a function of the stellar effective temperature to identify 24 µm and 70 µm excesses. We place constraints or upper limits on dust temperatures and fractional infrared luminosities with a simple blackbody dust model. We confirm the previously published 70 µm excesses for HD 92945, HD 112429, and AU Mic, and provide updated flux density measurements for these sources. We present the discovery of 70 µm excesses for five stars: HD 7590, HD 10008, HD 59967, HD 73350, and HD 135599. HD 135599 is also a known Spitzer IRS (InfraRed Spectrograph) excess source, and we confirm the excess at 24 µm. We also present the detection of 24 µm excesses for 10 stars: HD 10008, GJ 3400A, HD 73350, HD 112429, HD 123998, HD 175742, AT Mic, BO Mic, HD 358623 and Gl 907.1. We find that large 70 µm excesses are less common around stars with effective temperatures of less than 5000 K (3.7^+7.6_–1.1%) than around stars with effective temperatures between 5000 K and 6000 K (21.4^+9.5 _–5.7%), despite the cooler stars having a younger median age in our sample (12 Myr vs. 340 Myr). We find that the previously reported excess for TWA 13A at 70 µm is due to a nearby background galaxy, and the previously reported excess for HD 177724 is due to saturation of the near-infrared photometry used to predict the mid-infrared stellar flux contribution. In the Appendix, we present an updated analysis of dust grain removal timescales due to grain-grain collisions and radiation pressure, Poynting-Robertson (P-R) drag, stellar wind drag, and planet-dust dynamical interaction. We find that drag forces can be important for disk dynamics relative to grain-grain collisions for L_IR/L_*< 10^–4, and that stellar wind drag is more important than P-R drag for K and M dwarfs, and possibly for young (<1 Gyr) G dwarfs as well.

Abstract Copyright: ∼

Journal keyword(s): circumstellar matter - planetary systems: formation

Simbad objects: 87

Full paper

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Number of rows : 87

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	* 9 Cet	BY*	00 22 51.7884553555	-12 12 33.969921319	7.29	7.05	6.39			G2.5V	487	0
2	HD 7590	BY*	01 16 29.2528915488	+42 56 21.902701200		7.17	6.59			G0-V(k)	95	0
3	HD 9770	EB*	01 35 01.0078925286	-29 54 37.342172838	8.605	8.03	7.096	6.551	6.035	K1V	153	0
4	V* EX Cet	BY*	01 37 35.4667815000	-06 45 37.529924796	8.862	8.459	7.656	7.218	6.817	K0/1V	143	0
5	V* EZ Cet	BY*	01 49 23.3488631760	-10 42 13.083858540	7.49	7.386	6.754	6.392	6.04	G3V	173	0
6	* iot Cas	a2*	02 29 03.94780	+67 24 08.9170						~	261	0
7	V* FT Cet	BY*	02 36 41.7624882231	-03 09 22.094410260	9.768	9.046	8.100	7.578	7.13	K1V	97	0
8	* eta Hor	**	02 37 24.3486279936	-52 32 35.192050404		5.569	5.293			A6V	80	0
9	HD 17240	**	02 47 03.5750243088	+35 33 16.829455032	6.590	6.590	6.250			A9V	52	0
10	* eps Eri	BY*	03 32 55.8444911587	-09 27 29.739493865	5.19	4.61	3.73	3.00	2.54	K2V	1932	1
11	Cl Melotte 22	OpC	03 46 24.2	+24 06 50						~	3432	0
12	V* DO Eri	a2*	03 55 16.1313315312	-12 05 56.727712752	6.35	6.32	6.00			A9VpSrEuCr	397	0
13	Cl Melotte 25	OpC	04 29 47.3	+16 56 53						~	3074	0
14	HD 283750	BY*	04 36 48.2421502608	+27 07 55.888214520		9.354		7.4		K2.5Ve	273	2
15	HD 29697	BY*	04 41 18.8552115035	+20 54 05.446927411	10.064	9.12	7.985	7.313	6.666	K4V	166	0
16	V* V1005 Ori	BY*	04 59 34.8342878424	+01 47 00.669818328		11.48	10.107	9.603	8.239	M0Ve	342	0
17	HD 36435	PM*	05 27 39.3521452752	-60 24 57.586196016	8.068	7.75	6.983	6.573	6.191	G5V	118	0
18	V* AB Dor	TT*	05 28 44.8712165880	-65 26 55.199147208	8.259	7.856	6.999	6.496	5.993	K0V	1021	0
19	* bet Pic	PM*	05 47 17.0876901	-51 03 59.441135	4.13	4.03	3.86	3.74	3.58	A6V	1902	1
20	HD 41824	RS*	06 04 46.68146	-48 27 29.8706				7.57		G7VpkCH-1	100	0
21	V* V1386 Ori	PM*	06 06 40.4780487600	+15 32 31.578871020	8.016	7.565		6.2		K0V	168	0
22	HD 48189	BY*	06 38 00.3532489704	-61 32 00.114167796		6.747	6.182		5.46	G1/2V	141	0
23	NAME AB Dor Moving Group	MGr	06 38 53.4	-42 50 04						~	471	0
24	HD 51849	SB*	06 58 26.0478781464	-12 59 30.691768956	11.375	10.328	9.157	8.443	7.797	K4V	76	0
25	HD 52698	PM*	07 01 13.7314874136	-25 56 55.491750492	8.203	7.58	6.688			K1V	83	0
26	HD 59967	PM*	07 30 42.5117581608	-37 20 21.706958688	7.386	7.274	6.635	6.28	5.945	G3V	162	0
27	HD 63433	BY*	07 49 55.0606576176	+27 21 47.457467316		7.59	6.91			G5V	157	0
28	NGC 2547	OpC	08 09 52.360	-49 10 35.01						~	400	0
29	HD 72760	PM*	08 34 31.6518575208	-00 43 33.828751920	8.613	8.159	7.334	6.891	6.492	K0V	120	0
30	V* V401 Hya	BY*	08 37 50.2937396460	-06 48 24.779911420	7.577	7.394	6.725	6.365	6.029	G8/K0(IV)	175	0
31	HD 74576	PM*	08 43 18.0303716918	-38 52 56.570847350		7.49	6.56			K3V	141	0
32	* p Vel	SB*	10 37 18.1504398154	-48 13 32.398269222	4.19	4.13	3.84	3.57	3.41	A3/5	127	0
33	V* V419 Hya	BY*	10 43 28.2715703736	-29 03 51.432666948	9.144	8.596	7.719	7.232	6.806	K1V	183	0
34	NAME TW Hya Association	As*	11 01.9	-34 42						~	942	0
35	HD 97334	BY*	11 12 32.3503039560	+35 48 50.688978228		7.02		6.0		G2	283	0
36	V* V1215 Cen	TT*	11 13 26.2208680752	-45 23 42.720964188			12.478		10.483	K8IVe	82	0
37	V* V1217 Cen	BY*	11 21 05.4814169256	-38 45 16.522915140		14.04	12.58	12.34	10.515	M1Ve	78	0
38	CD-34 7390A	TT*	11 21 17.2193334624	-34 46 45.503251608		12.88	11.46	11.43	9.57	M1Ve	100	0
39	CD-34 7390	**	11 21 17.24	-34 46 45.5			11.080		9.038	M1Ve+M1Ve	59	0
40	CD-34 7390B	TT*	11 21 17.4430606440	-34 46 49.775810700		13.43	11.96	11.31	9.88	M1Ve	70	0
41	HD 103928	PM*	11 58 07.1737869528	+32 16 26.067763128		6.735	6.422			A9V	84	0
42	HD 105963	BY*	12 11 27.7660264224	+53 25 17.458825260		8.91		7.4		K2	61	0
43	V* NO UMa	RS*	12 31 18.9376512624	+55 07 08.278288104		9.04	8.10			K2Ve	134	0
44	V* V1250 Cen	TT*	12 34 20.4720080040	-48 15 19.545583716		13.3	12.2		11.80	M3	37	0
45	V* V1251 Cen	TT*	12 34 20.6481372456	-48 15 13.531352148		13.3	12.2		11.90	M3.5	44	0
46	TWA 16	**	12 34 56.302608	-45 38 07.63332		14.05	12.58	12.21	10.310	M2.5	56	0
47	* 8 Dra	gD*	12 55 28.5485641728	+65 26 18.507128532		5.516	5.225			F3IV	94	0
48	V* PX Vir	BY*	13 03 49.6546871	-05 09 42.517119	9.042	8.555	7.679	7.185	6.721	K1V	127	0
49	V* V1267 Cen	TT*	13 20 45.3877266600	-46 11 37.711450572		14.0	12.7		10.78	K5IVe	42	0
50	V* V1268 Cen	TT*	13 21 37.2192317688	-44 21 51.861714228			12.952		10.965	M0.5	43	0
51	HD 116956	BY*	13 25 45.5320130664	+56 58 13.776984840	8.540	8.090		6.8		G9V	126	0
52	* eta Aps	PM*	14 18 13.8958998144	-81 00 27.930594204		5.130	4.889			A2mA7-F2	54	0
53	HD 125158	PM*	14 19 51.5027170776	-61 16 22.705691232		5.52	5.23			A5/7mA7-F2	51	0
54	NAME beta Pic Moving Group	MGr	14 30	-42.0						~	774	0
55	V* KU Lib	BY*	14 40 31.1063299272	-16 12 33.452598312	8.247	7.977	7.240	6.837	6.47	G8Vk:	98	0
56	HD 128400	PM*	14 41 52.4609546424	-75 08 22.124848884	7.725	7.482	6.765	6.381	6.015	G6V	69	2
57	HD 135599	BY*	15 15 59.1668432664	+00 47 46.900249728	8.215	7.748	6.905	6.438	6.028	K0V	119	0
58	HD 141272	BY*	15 48 09.4631912304	+01 34 18.266587824	8.65	8.242	7.422	6.973	6.565	K0V	130	0
59	* del Nor	*	16 06 29.4516604824	-45 10 23.808085716		4.951	4.713			kA3hA7mF0III:	77	0
60	NAME Upper Sco Association	As*	16 12	-23.4						~	1369	1
61	NAME Upper Sco-Cen	As*	16 15	-24.2						~	1330	1
62	* ups Oph	SB*	16 27 48.1871985	-08 22 18.224465		4.80	4.63			kA2hA5VmA5	139	0
63	HD 165185	PM*	18 06 23.7195191736	-36 01 11.230597272	6.64	6.57	5.95	5.58		G1V	169	0
64	V* EY Dra	BY*	18 16 16.7795336184	+54 10 21.732232332		13.69	11.84			dM1.5e	71	0
65	* alf Lyr	dS*	18 36 56.33635	+38 47 01.2802	0.03	0.03	0.03	0.07	0.10	A0Va	2686	1
66	HD 175742	RS*	18 55 53.2250061997	+23 33 23.932761771	9.524	8.941	8.019	7.483	6.958	K0V	188	0
67	* zet Aql	PM*	19 05 24.6080155	+13 51 48.518212	2.99	3.00	2.99	2.98	2.98	A0IV-Vnn	350	0
68	HD 180161	BY*	19 12 11.3567117243	+57 40 19.126794551		7.83		6.5		K0	106	0
69	HD 186219	*	19 49 25.3029107256	-72 30 12.161245572		5.628	5.392			A4IV	70	0
70	V* AT Mic	Er*	20 41 51.15925	-32 26 06.8283	12.753	11.909	10.343	9.098	7.383	M4.5Ve+M4.5Ve	357	0
71	* eta Ind	dS*	20 44 02.3339803529	-51 55 15.493271117		4.767	4.495			A9IV	87	0
72	HD 197481	BY*	20 45 09.5324974119	-31 20 27.237889841		10.05	8.627	9.078	6.593	M1VeBa1	1153	0
73	V* BO Mic	BY*	20 47 45.0056152368	-36 35 40.769832192		10.39	9.337		8.216	K3V(e)	198	0
74	HD 358623	BY*	20 56 02.738688	-17 10 53.80428		11.603	10.625	10.18	8.847	K7	97	0
75	BD-05 5480	**	21 08 45.4980613560	-04 25 36.259389264		10.62	9.43			M1	57	0
76	* tet Ind	**	21 19 51.9894566760	-53 26 57.933870576		4.641	4.483	5.82		A5IV-V	85	0
77	HD 203244	PM*	21 24 40.5220958049	-68 13 40.527845137		7.70	6.97			G5V	86	0
78	BD+22 4409	BY*	21 31 01.7140062576	+23 20 07.374015564		10.240	9.245	8.6	7.965	K3Vke	175	0
79	G 263-10	PM*	21 58 24.5152059768	+75 35 20.608452888				10.163		M1V	75	0
80	* 53 Aqr B	PM*	22 26 34.270424	-16 44 29.72171		6.96	6.32			G3V	107	0
81	* 53 Aqr A	PM*	22 26 34.300222	-16 44 31.90085		6.83	6.22			G2V	141	0
82	* alf PsA b	Pl	22 57 39.04625	-29 37 20.0533						~	201	1
83	V* HK Aqr	BY*	23 08 19.5510173448	-15 24 35.766079704	13.4	12.282	10.872	9.964	9.019	M0Ve	211	0
84	V* KZ And	BY*	23 09 57.3641359080	+47 57 30.045063744		8.841	7.912			K2-Ve	132	0
85	BD-13 6464	**	23 48 25.6952889480	-12 59 14.854646940		10.797	9.852	9.629		K5Vke	76	0
86	NAME Pleiades Moving Group	MGr	~	~						~	277	1
87	NAME Castor Moving Group	As*	~	~						~	129	1

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