2013A&A...555A..25P

Query : 2013A&A...555A..25P

2013A&A...555A..25P - Astronomy and Astrophysics, volume 555A, 25-25 (2013/7-1)

Automated measurements of diffuse interstellar bands in early-type star spectra. Correlations with the color excess.

PUSPITARINI L., LALLEMENT R. and CHEN H.-C.

Abstract (from CDS):

Stellar spectroscopic surveys may bring useful statistical information on the links between diffuse interstellar bands (DIBs) and the interstellar environment. DIB databases can also be used as a complementary tool for locating interstellar (IS) clouds. Our goal is to develop fully automated methods of DIB measurements to be applied to extensive data from stellar surveys. We present a method that is appropriate for early-type nearby stars, along with its application to high-resolution spectra of ∼130 targets recorded with the ESO FEROS spectrograph and comparisons with other determinations. Using a DIB average profile deduced from the most reddened stars, we performed an automated fitting of a combination of a smooth stellar continuum, the DIB profile, and, when necessary, a synthetic telluric transmission. Measurements are presented for 16 DIBs in the optical domain that could be extracted automatically: 4726.8, 4762.6, 4963.9, 5780.4, 5797.1, 5849.8, 6089.8, 6196.0, 6203.0-6204.5, 6269.8, 6283.8, 6379.3, 6445.3, 6613.6, 6660.7, and 6699.3Å. Two approaches to determining equivalent width (fitted equivalent width and continuum-integrated equivalent width) were tested and the two determinations were found to agree within the uncertainties, except for the 6203-6204 multiple band, and are compatible with previous non automated measurements. Errors arising from statistical noise and continuum placement were estimated conservatively by means of the ``sliding window'' method. We derived the mean relationship between the DIB equivalent width and the color excess. Parameters of the linear correlation relationships are positively compared with published values, and most correlation coefficients were found to be higher than those based on an earlier type, UV bright target stars, which confirms previous results on the influence of the radiation field. We provide the first correlation parameters for the 5849.8, 6089.8, 6269.8, 6445.3, 6660.7, and 6699.3Å bands in the Galaxy. The coefficients are within the same range as for other optical bands. Automated DIB equivalent width extractions can be performed for nearby early-type stars without significant losses in accuracy. This opens the perspective of building extended DIB catalogs based on high-resolution spectroscopic surveys. We discuss the limitations of this method in the case of distant stars and potential improvements.

Abstract Copyright:

Journal keyword(s): ISM: lines and bands - dust, extinction

VizieR on-line data: <Available at CDS (J/A+A/555/A25): tablea1.dat>

Simbad objects: 134

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Number of rows : 134
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 HD 225206 * 00 04 22.9073402736 -29 22 53.658124932   7.71 7.74     B8/9V 67 0
2 HD 480 * 00 09 08.5815581016 -50 10 00.484221936   6.92 7.06     B5V 24 0
3 HD 1348 * 00 12 33.9573795744 -88 21 46.334185128   7.26 7.21     B9.5IV 29 0
4 HD 955 * 00 13 55.6010149224 -17 32 43.328375484 6.52 7.203 7.361     B3IV 52 0
5 * pi. Tuc * 00 20 39.0422278704 -69 37 29.707462920   5.450 5.499     B9V 72 0
6 M 31 AGN 00 42 44.330 +41 16 07.50 4.86 4.36 3.44     ~ 12645 1
7 HD 9478 * 01 31 02.0231289792 -66 29 47.936239080   8.24 8.28     B9V 18 0
8 M 33 GiG 01 33 50.8965749232 +30 39 36.630403128 6.17 6.27 5.72     ~ 5838 1
9 HD 10161 * 01 38 49.9946730360 -25 01 19.909274808   6.606 6.689     B9V 51 0
10 HD 16891 * 02 39 31.7269875648 -64 16 54.180378948   6.465 6.532     B9V 41 0
11 HD 18546 * 02 57 32.6269610256 -38 11 27.323150352   6.383 6.411     A0Vn 27 0
12 NAME Magellanic Clouds GrG 03 00 -71.0           ~ 7065 0
13 HD 21360 * 03 24 36.2020781304 -51 03 45.573534684   6.51 6.53     A0V 16 0
14 HD 24446 * 03 53 08.3672906664 -06 38 01.490924940   6.450 6.556     B7II/III 32 0
15 HD 27528 * 04 20 09.0774915912 -16 26 14.170805628   6.759 6.790     B9V 33 0
16 HD 29506 * 04 37 59.1639104064 -20 41 16.827328824   7.14 7.25     B6V 15 0
17 HD 32043 * 05 00 11.8072481928 -06 18 03.528172404   7.84 7.83     A0III/IV 14 0
18 HD 33244 ** 05 01 09.44386 -74 20 27.0471           B9.5V 18 0
19 HD 35021 * 05 20 55.1605225056 -21 02 23.613276444   7.53 7.63     B8V 14 0
20 * kap Pic * 05 22 22.1468864184 -56 08 03.836012676   5.997 6.086     B8/9V 49 0
21 HD 36965 * 05 33 51.9864027648 -29 50 57.204818520   6.51 6.53     A0IV 34 0
22 * 29 Dor Be* 05 36 54.9785586360 -66 33 37.027712484   6.221 6.274     A1IIIe 55 0
23 HD 37717 Pu* 05 38 43.5276726168 -40 42 26.316937044   5.721 5.804     B8V 37 0
24 HD 39294 * 05 50 09.3449497128 -32 48 33.340672404   6.86 6.82     A1V 16 0
25 * kap Men PM* 05 50 16.7857397880 -79 21 40.899915828   5.375 5.451     B9V 52 0
26 HD 40355 ** 05 57 39.5782296888 -15 24 22.046489172   7.08 7.18     B8IV 18 0
27 * eta01 Dor SB* 06 06 09.3817676280 -66 02 22.635231936   5.679 5.690     A0V 77 0
28 HD 42834 * 06 10 39.9278644968 -45 16 55.159860828   6.262 6.272     A0V 32 0
29 HD 44533 Be* 06 14 41.9418058464 -73 37 35.434849728   6.56 6.59     B8IVe 23 0
30 HD 44737 * 06 21 11.2910904048 -44 45 30.858086158   7.56 7.67     B7V 12 0
31 HD 45098 * 06 23 45.2488518936 -37 00 52.539455448   6.782 6.878     B5V 19 0
32 HD 45557 * 06 24 13.8423772968 -60 16 52.762590552   5.767 5.766     A0V 48 0
33 HD 46976 * 06 30 27.7227718272 -68 56 51.668499624   7.86 7.92     B9V 15 0
34 HD 48150 V* 06 39 46.8138392568 -43 24 10.429866612   7.28 7.41     B3V 35 0
35 HD 48261 * 06 41 07.8005696424 -30 38 44.157200424   7.170 7.225     B9V 18 0
36 HD 49336 Be* 06 46 12.1494382608 -37 46 31.166523516   6.072 6.192     B6Vne 49 0
37 HD 49573 * 06 48 27.3959368176 -12 50 26.219412168   6.92 7.02     B8II/III 18 0
38 HD 50093 * 06 50 36.9593160984 -25 46 42.219563736 5.35 6.131 6.314     B2III/IV 52 0
39 HD 52266 SB* 07 00 21.0763468632 -05 49 35.954203044 6.32 7.22 7.23     O9.5IIIn 119 0
40 HD 60102 * 07 11 38.4057001464 -84 28 09.761366388   7.55 7.54     B9/9.5V 24 0
41 HD 60325 * 07 33 22.1853581952 -14 20 17.902042980 5.46 6.17 6.21     B2II 83 0
42 HD 60929 * 07 34 51.0534449328 -44 17 46.084509636   6.780 6.798     A0V 16 0
43 HD 61554 * 07 39 07.0961907312 -18 40 42.205511496   6.633 6.710     B5/7V 38 0
44 HD 61672 * 07 39 26.9807327280 -26 51 47.205032976   6.385 6.485     B5/7V 41 0
45 * d01 Pup * 07 39 27.3386401968 -38 18 28.884430663 3.99 4.65 4.84 4.92 5.08 B3V 101 0
46 HD 62503 * 07 42 30.6146444256 -39 12 04.561991136   7.202 7.259     B9V 32 0
47 HD 63868 * 07 49 14.3047486968 -40 42 03.839979996 5.65 6.354 6.506     B3V 31 0
48 HD 69253 * 08 14 29.6510250816 -40 49 33.145100868 5.87 6.44 6.57     B3V 29 0
49 HD 70948 Be* 08 22 57.1632724008 -43 13 40.347610788   6.97 7.08     B5IVe 18 0
50 HD 71518 * 08 27 26.8664451744 -14 56 06.765730908 5.8 6.502 6.662     B2V 42 0
51 HD 72787 * 08 33 19.8602097936 -38 22 14.428376436 5.66 6.306 6.461     B2/3V 50 0
52 HD 75009 * 08 45 47.4875639424 -44 14 52.850960628   6.581 6.677     B8IV/V 23 0
53 V* AI Pyx Be* 08 46 49.2399657696 -34 37 22.603664496   6.192 6.324     B3V 40 0
54 HD 79752 * 09 15 24.9475525488 -15 01 29.681127372   6.330 6.318     A0V 46 0
55 HD 80590 * 09 19 47.9315099664 -34 06 12.027586428   6.296 6.384     B8V 34 0
56 HD 83153 * 09 34 49.2335142648 -50 33 45.068136876   8.02 8.00     B3/4III 22 0
57 HD 84552 * 09 44 37.3384839576 -48 32 55.910333904   6.586 6.679     B6/7V 21 0
58 HD 85604 * 09 51 38.8086566568 -46 30 44.219815668   6.60 6.70     B8/9V 13 0
59 HD 86612 Be* 09 59 06.3044206872 -23 57 02.767063320 5.51 6.13 6.25 6.14 6.19 B5IVe 100 0
60 * del02 Cha Pu* 10 45 47.0063233842 -80 32 24.677451400 3.56 4.258 4.433     B3V 72 0
61 HD 93331 * 10 46 24.8251328568 -13 27 35.491545720   7.28 7.26 7.25 9.062 B9.5V 21 0
62 HD 95178 * 10 59 17.8504304784 -10 19 31.587142512   7.24 7.24     B9V 12 0
63 HD 98161 PM* 11 17 12.0072710256 -38 00 51.722245584   6.336 6.235     A1V 40 0
64 HD 98867 * 11 22 21.4818315672 -39 06 17.800326540   7.34 7.33     B9.5V 17 0
65 * tet Crt PM* 11 36 40.9092052035 -09 48 08.001725582   4.604 4.673     B9.5V 214 0
66 HD 103077 Be* 11 52 04.1210054760 -49 24 04.104585108   6.88 6.99     B6IVe 22 0
67 HD 105078 V* 12 05 56.6623958568 -35 41 38.110610796   6.138 6.226     B8V 35 0
68 HD 105313 V* 12 07 32.7371087280 -45 34 52.173424812   7.317 7.302     B9V 39 0
69 HD 106461 * 12 18 46.0887213576 -88 24 53.711128296   6.56 6.62     B9V 18 0
70 HD 107931 * 12 24 21.3963444240 -47 22 22.574981640   6.56 6.61     B9V 21 0
71 HD 108107 PM* 12 25 11.7645188832 -11 36 38.118607308   5.971 5.926     A1V 36 0
72 HD 108267 Pu* 12 26 31.5012823080 -44 44 55.464472104   7.79 7.60     A3V 16 0
73 HD 108344 * 12 29 00.5298621624 -83 48 09.608386176   6.62 6.63     B8V 22 0
74 * q Vir PM* 12 33 46.7485436339 -09 27 07.478534302   5.45 5.48     B9V 70 0
75 HD 113709 * 13 07 34.8103652280 -73 35 08.557587060   7.72 7.70     B9V 16 0
76 HD 114887 ** 13 15 18.2092820856 -70 28 40.669596768   7.50 7.48     B3/5III 22 0
77 HD 116226 * 13 23 02.5993874832 -48 33 46.042468740 5.84 6.272 6.360     B5V 55 0
78 HD 116663 * 13 25 48.9991208880 -47 31 30.336860964   8.81 8.71     B9V 26 0
79 HD 117484 * 13 31 30.9674020680 -46 44 06.838726200   7.56 7.53     B9.5V 33 0
80 HD 119283 * 13 43 57.3463346256 -59 14 09.546630324   6.46 6.49     B8V 23 0
81 HD 120958 Be* 13 53 28.2273294048 -39 03 25.924356900 6.74 7.49 7.61     B3Vnne 34 0
82 HD 124834 Be* 14 19 57.3713030664 -73 58 06.404436228   6.57 6.62     B3III/IV 32 0
83 HD 126131 * 14 23 57.7031918472 -16 06 06.878620440   6.77 6.69     A1V 27 0
84 * zet Cir Pu* 14 54 42.5860330320 -65 59 27.977958456   6.03 6.09     B2/3Vn 54 0
85 HD 132101 * 14 59 19.2953953272 -51 34 34.077112860   6.73 6.78     B5V 23 0
86 HD 133529 * 15 05 47.7268824840 -25 47 22.130637936   6.66 6.66     B8.5V 42 0
87 HD 135961 * 15 25 00.0172875216 -76 31 28.602525108   7.21 7.22     B9V 15 0
88 HD 139909 * 15 41 15.9724611912 -13 58 13.141598520   6.91 6.86     B9.5V 25 0
89 HD 140037 * 15 42 40.0940922024 -32 11 09.718038852   7.40 7.48     B5III 36 0
90 HD 140619 * 15 46 40.3599923448 -48 44 12.558205896   6.72 6.76     B9III 17 0
91 HD 141327 * 15 49 43.1037975984 -32 48 29.830563612   7.46 7.46     B9V 45 0
92 HD 142315 SB* 15 54 41.5962061728 -22 45 58.513986900   6.887 6.861     B9V 110 0
93 HD 143321 * 16 02 04.4756676120 -51 07 14.778955596   6.374 6.387     B5V 25 0
94 HD 143326 * 16 08 11.7173502072 -77 17 20.268195684   7.39 7.43     B8V 15 0
95 HD 146029 * 16 14 53.3248251360 -22 22 49.101919716   7.438 7.378     B9V 65 0
96 HD 146254 V* 16 15 51.4951281264 -14 50 56.815488096   6.165 6.083     A0III 51 0
97 HD 146295 * 16 20 34.0674083400 -68 32 11.943967740   7.14 7.19     B8/9V 21 0
98 HD 147932 Ro* 16 25 35.0813422344 -23 24 18.806143896 7.24 7.59 7.27     B5V 130 0
99 HD 149425 * 16 36 28.6730639112 -40 18 10.916595000   7.20 7.10     B9V 41 0
100 HD 150548 * 16 45 27.7253864040 -60 33 48.901349592   7.45 7.55     B3V 21 0
101 V* V2355 Oph EB* 16 50 55.4774517264 -16 32 48.927869304   7.27 7.07     B5V 33 0
102 NAME Scorpius Complex reg 16 51 00.0 -25 20 00           ~ 41 0
103 HD 157524 * 17 28 07.8650225448 -63 02 10.464049932   6.127 6.208     B7/8V 29 0
104 HD 164716 Be* 18 02 46.2713896632 -05 21 29.112768360   6.92 6.76     B9IVe 42 0
105 HD 164776 Pu* 18 04 37.6921302480 -40 38 15.252830556   7.10 7.18     B5V(n) 16 0
106 HD 165052 SB* 18 05 10.5506592816 -24 23 54.847798080 6.16 6.98 6.87 7.77   O6.5V((f))z 267 1
107 HD 165365 Be* 18 06 45.7920385992 -28 21 49.768304220   7.07 7.11     B7/8III 25 0
108 * phi Oct * 18 23 36.4487369880 -75 02 39.397448688   5.495 5.456     A0V 40 0
109 HD 171957 * 18 38 04.4794634424 -14 00 17.218145016   6.68 6.47     B8II/III 40 0
110 HD 172016 * 18 39 17.8769891016 -34 09 58.738169016   6.65 6.65     B9.5V 15 0
111 HD 172488 * 18 40 48.0509874696 -08 43 07.690358568 7.76 8.16 7.62     B0Iab/b 74 0
112 HD 171722 * 18 42 30.0045209664 -70 18 11.393751708   7.21 7.24     B9V 17 0
113 HD 172882 * 18 56 00.0232169928 -80 43 40.384981380   6.59 6.56     A0V 21 0
114 V* V599 Aql EB* 19 02 34.1437750536 -10 43 18.391075248 6.41 6.830 6.647     B3II/III 88 0
115 * lam Aql PM* 19 06 14.9386542192 -04 52 57.225885348 3.07 3.34 3.43 3.46 3.55 B8.5V 225 0
116 HD 179029 * 19 12 34.5418184664 -37 31 26.533823016   7.22 7.15     B5V 22 0
117 * eta Tel PM* 19 22 51.2060774616 -54 25 26.145617376   5.035 5.020   4.99 A0V 216 0
118 HD 182254 * 19 31 01.0357752144 -73 59 06.803338848   7.34 7.40     B8/9Vn 14 0
119 HD 186837 * 19 50 21.7568928744 -61 03 40.025569176   6.063 6.206     B5V 49 0
120 HD 188246 * 19 56 05.2336520304 -44 00 43.961608080   7.097 7.157     B8/9V 34 0
121 HD 195843 * 20 34 47.3919173016 -30 28 24.494649204   6.331 6.402     B8V 30 0
122 HD 195805 * 20 37 11.0481594024 -65 01 59.808559368   6.62 6.69     B8/9V 13 0
123 HD 196413 * 20 37 48.9219947736 -17 07 20.838941112 6.87 7.04 7.08     B9V 19 0
124 HD 197630 PM* 20 46 20.0677953120 -39 11 57.358970520   5.382 5.470     B8/9V 43 0
125 HD 201057 PM* 21 07 44.6943225624 -17 27 21.244743828   6.14 6.17     B9.5V 31 0
126 HD 201317 Be* 21 10 10.0031875656 -43 22 57.811919664   6.476 6.560     B9IVe 17 0
127 HD 202299 V* 21 18 00.4896109800 -64 40 53.689311300   6.249 6.313     B8V 27 0
128 HD 204827 SB* 21 28 57.7592315784 +58 44 23.238427956 8.63 8.74 7.94 7.25 6.76 O9.5IV 355 0
129 HD 205705 * 21 37 37.6738800240 -19 13 51.651651216   7.36 7.44     B8V 22 0
130 HD 205348 * 21 38 17.0210109504 -69 37 48.623160252   6.669 6.765     B8V 17 0
131 HD 207158 * 21 48 54.4328303136 -56 16 26.433569460   6.46 6.54     B9V 15 0
132 HD 207603 * 21 50 46.2761317800 -27 55 56.517756960   7.45 7.52     B8/9V 22 0
133 HD 209386 * 22 03 39.0948531240 -29 20 47.612260644   7.30 7.37     B8V 13 0
134 * 85 Aqr * 23 05 52.5309827592 -07 56 12.166030176   6.69 6.69     B9V 14 0

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