2017A&A...606A..76C


C.D.S. - SIMBAD4 rel 1.7 - 2020.11.30CET02:43:01

2017A&A...606A..76C - Astronomy and Astrophysics, volume 606A, 76-76 (2017/10-1)

The ESO Diffuse Interstellar Bands Large Exploration Survey (EDIBLES). I. Project description, survey sample, and quality assessment.

COX N.L.J., CAMI J., FARHANG A., SMOKER J., MONREAL-IBERO A., LALLEMENT R., SARRE P.J., MARSHALL C.C.M., SMITH K.T., EVANS C.J., ROYER P., LINNARTZ H., CORDINER M.A., JOBLIN C., VAN LOON J.T., FOING B.H., BHATT N.H., BRON E., ELYAJOURI M., DE KOTER A., EHRENFREUND P., JAVADI A., KAPER L., KHOSROSHADI H.G., LAVERICK M., LE PETIT F., MULAS G., ROUEFF E., SALAMA F. and SPAANS M.

Abstract (from CDS):

The carriers of the diffuse interstellar bands (DIBs) are largely unidentified molecules ubiquitously present in the interstellar medium (ISM). After decades of study, two strong and possibly three weak near-infrared DIBs have recently been attributed to the C+60 fullerene based on observational and laboratory measurements. There is great promise for the identification of the over 400 other known DIBs, as this result could provide chemical hints towards other possible carriers. In an effort tosystematically study the properties of the DIB carriers, we have initiated a new large-scale observational survey: the ESO Diffuse Interstellar Bands Large Exploration Survey (EDIBLES). The main objective is to build on and extend existing DIB surveys to make a major step forward in characterising the physical and chemical conditions for a statistically significant sample of interstellar lines-of-sight, with the goal to reverse-engineer key molecular properties of the DIB carriers. EDIBLES is a filler Large Programme using the Ultraviolet and Visual Echelle Spectrograph at the Very Large Telescope at Paranal, Chile. It is designed to provide an observationally unbiased view of the presence and behaviour of the DIBs towards early-spectral-type stars whose lines-of-sight probe the diffuse-to-translucent ISM. Such a complete dataset will provide a deep census of the atomic and molecular content, physical conditions, chemical abundances and elemental depletion levels for each sightline. Achieving these goals requires a homogeneous set of high-quality data in terms of resolution (R∼70000-100000), sensitivity (S/N up to 1000 per resolution element), and spectral coverage (305-1042nm), as well as a large sample size (100+ sightlines). In this first paper the goals, objectives and methodology of the EDIBLES programme are described and an initial assessment of the data is provided.

Abstract Copyright: © ESO, 2017

Journal keyword(s): ISM: lines and bands - ISM: clouds - ISM: molecules - dust, extinction - stars: early-type - local insterstellar matter - local insterstellar matter

VizieR on-line data: <Available at CDS (J/A+A/606/A76): tablea1.dat tablea2.dat>

Simbad objects: 118

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Number of rows : 118

N Identifier Otype ICRS (J2000)
RA
ICRS (J2000)
DEC
Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2021
#notes
1 M 31 G 00 42 44.330 +41 16 07.50 4.86 4.36 3.44     ~ 11098 1
2 M 33 GiG 01 33 50.904 +30 39 35.79 6.17 6.27 5.72     ~ 5214 1
3 NAME Magellanic Clouds GrG 03 00 -71.0           ~ 5793 1
4 * 13 Tau Be* 03 42 18.9478060134 +19 42 00.925169042 5.41 5.68 5.69     B9Vne 93 0
5 * o Per * 03 42 22.6455526 +33 57 54.089323 4.13 4.912 4.972     B0.5V 281 0
6 * omi Per ** 03 44 19.13204 +32 17 17.6929 3.13 3.88 3.83 3.71 3.71 B1III 576 0
7 * zet Per V* 03 54 07.9224751 +31 53 01.081262 2.19 2.97 2.85 2.71 2.62 B1Ib 816 0
8 * 62 Tau * 04 23 59.7629429746 +24 18 03.527426906 6.18 6.499 6.337     B 193 0
9 HD 34748 * 05 19 35.2871385027 -01 24 42.883217010 5.50 6.24 6.35 6.34 6.48 B3V 87 0
10 * del Ori Al* 05 32 00.40009 -00 17 56.7424 0.96 2.02 2.41 2.32 2.54 B0III+O9V 745 0
11 V* VV Ori Al* 05 33 31.4472401583 -01 09 21.859507137 4.26 5.16 5.34 5.39 5.59 B9IV/V 240 0
12 * phi01 Ori SB* 05 34 49.2380370 +09 29 22.487814 3.29 4.26 4.41 4.42 4.59 B0III 244 0
13 * lam Ori A Em* 05 35 08.2792540686 +09 56 02.955355445 2.17 3.48 3.47     O8III((f)) 487 0
14 HD 36982 Or* 05 35 09.8365316854 -05 27 53.213773794 8.00 8.58 8.46     B1.5Vp 185 0
15 * tet01 Ori A Ae* 05 35 15.8252169327 -05 23 14.332546552 5.87 6.75 6.73 6.42 6.21 B0V 460 1
16 * tet01 Ori B Al* 05 35 16.112 -05 23 06.89 7.71 8.20 7.96     B1V 344 2
17 * tet01 Ori C ** 05 35 16.46375 -05 23 22.8486 4.20 5.15 5.13 4.91 4.73 O7Vp 1285 1
18 * tet01 Ori D Y*O 05 35 17.2574309230 -05 23 16.567215876 6.08 6.79 6.70 6.40 6.20 B1.5Vp 307 0
19 * tet02 Ori A SB* 05 35 22.9022511214 -05 24 57.817182421 5.37 6.30 6.39 6.30 6.35 O9.5IVp 500 0
20 HD 37061 Or* 05 35 31.3653515656 -05 16 02.586154009 6.44 7.09 6.83     O9V 327 0
21 * eps Ori s*b 05 36 12.81335 -01 12 06.9089 0.48 1.51 1.69 1.76 1.93 B0Ia 860 0
22 HD 37367 * 05 39 18.3132076044 +29 12 54.788289500 5.6 6.116 5.984     B2IV-V 122 0
23 HD 37903 Em* 05 41 38.3889407943 -02 15 32.476182358 7.32 7.94 7.83 7.64 7.52 B3IV 326 1
24 HD 38087 ** 05 43 00.5750795483 -02 18 45.388281574 7.96 8.40 8.29 8.06 7.89 B3II 151 1
25 * kap Ori s*b 05 47 45.3888404 -09 40 10.577707 0.87 1.88 2.06 2.09 2.27 B0.5Ia 549 0
26 HD 39680 Be* 05 54 44.7314236108 +13 51 17.068152340 7.05 8.01 7.99     O6V:[n]pevar 114 0
27 * 139 Tau Em* 05 57 59.6563212 +25 57 14.079839 3.82 4.76 4.82 4.76 4.87 B0/1II/III 267 0
28 * chi02 Ori s*b 06 03 55.1848402263 +20 08 18.441609669 4.24 4.91 4.63 4.32 4.10 B2Ia 430 0
29 * 9 Gem s*b 06 16 58.7058947017 +23 44 27.286451876 6.31 6.70 6.25 5.78 5.38 B3Iab 224 0
30 HD 45314 Be* 06 27 15.7780829067 +14 53 21.219330074 5.91 6.79 6.64     O9:npe 155 0
31 HD 49787 Be* 06 49 55.5208564482 -05 30 47.503332221 6.69 7.49 7.54     B1V:ep 52 0
32 HD 50820 Be* 06 54 42.0426161537 -01 45 23.313375761 6.44 6.77 6.21 5.52 4.82 B3IVe+K2II 92 0
33 HD 53975 * 07 06 35.9656022838 -12 23 38.216531612 5.38 6.40 6.50 6.51   O7.5Vz 179 0
34 HD 54439 * 07 08 23.1959336829 -11 51 08.563720611 6.98 7.73 7.68 8.58   B2/3II 52 0
35 HD 54662 SB* 07 09 20.2488124291 -10 20 47.627880802 5.35 6.24 6.21 7.23   O6.5Vz(n)+O7.5Vz 320 2
36 HD 55879 * 07 14 28.2530122374 -10 18 58.483790697 4.88 5.85 6.03 7.35   O9.7III 155 0
37 * tau CMa bL* 07 18 42.4864191 -24 57 15.741299 3.26 4.25 4.40 4.44 4.62 O9II 400 0
38 HD 61827 * 07 39 49.3379128922 -32 34 42.131834519 7.91 9.52 8.20 8.19   O8/9(Ib) 74 0
39 HD 66194 Be* 07 58 50.5509056292 -60 49 28.055349036 4.92 5.72 5.81 5.77 5.83 B3Vn 121 0
40 * zet Pup BY* 08 03 35.04754 -40 00 11.3321 0.89 1.98 2.25 2.36 2.58 O4I(n)fp 1099 1
41 HD 73882 EB* 08 39 09.53412 -40 25 09.2608 7.07 7.59 7.19 6.67 6.30 O8.5IV 222 2
42 HD 75309 V* 08 47 27.9649087955 -46 27 03.957882089 7.05 7.82 7.84 8.77   B2Ib/II 65 0
43 HD 75860 s*b 08 50 53.24063 -43 45 05.4358 8.05 8.30 7.58 6.83 6.23 B1.5Iabp 82 0
44 HD 79186 s*b 09 11 04.3980185567 -44 52 04.441120785 4.65 5.22 5.00 4.71 4.49 B5Ia 128 0
45 HD 80558 s*b 09 18 42.3559725873 -51 33 38.336390468 6.15 6.47 5.93 5.36 4.94 B6Ia 106 0
46 * kap Vel SB* 09 22 06.8176100 -55 00 38.401683 1.5 2.324 2.473     B2IV 151 0
47 HD 91824 SB* 10 34 46.6320753376 -58 09 22.038009914 7.17 8.11 8.14 9.02   O7V((f))z 131 0
48 * tet Car SB* 10 42 57.4019674 -64 23 40.020796 1.53 2.54 2.76 2.87 3.10 B0Vp 314 0
49 V* V560 Car SB* 10 44 33.7392630703 -59 44 15.434160993 6.89 7.80 7.75 7.56 7.46 O3.5V((f))+O8V 280 0
50 HD 93222 * 10 44 36.2479580459 -60 05 28.886871750 7.26 8.15 8.10 8.91   O7V((f))z 183 0
51 HD 303308 ** 10 45 05.9146041531 -59 40 05.922859453 7.45 8.30 8.17 7.92 7.75 O4.5V((fc)) 280 0
52 HD 93843 Er* 10 48 37.7714362588 -60 13 25.516378731 6.37 7.29 7.33 8.23   O5III(fc) 157 0
53 HD 94493 V* 10 53 15.0993762232 -60 48 53.196012889 6.43 7.75 7.59 8.17   B0.5Iab/b 85 0
54 HD 99953 s*b 11 29 15.1352640540 -63 33 14.176692044 6.28 6.88 6.57 6.16 5.92 B2Ia 92 0
55 HD 103779 * 11 56 57.5477276437 -63 14 56.724935031 6.35 7.185 7.220 8.32   B0/1II 90 0
56 HD 104705 Pu* 12 03 23.9087495479 -62 41 45.831105033 6.94 9.56 9.11 8.85   B0III/IV 100 0
57 HD 109399 * 12 35 16.5313006292 -72 43 00.839292707 6.85 7.67 7.67 8.72   B0.5III 79 0
58 V* BU Cru EB* 12 53 37.6191876667 -60 21 25.424160921 6.49 7.04 6.84 7.55   B2Ib 100 0
59 HD 112272 s*b 12 56 33.7344239348 -64 21 39.190750395 7.87 8.057 7.379 7.95   B0.5Ia 74 0
60 * tet Mus WR* 13 08 07.1527888825 -65 18 21.679641155 4.71 5.50 5.53 5.44 5.40 WC5+B0III 297 0
61 HD 114886 ** 13 14 44.38260 -63 34 51.8077 6.15 6.98 6.89 7.76   B1/2Ib/II 92 0
62 HD 116852 * 13 30 23.5190459533 -78 51 20.544585252 8.29 8.38 8.47     O8.5II-III((f)) 135 1
63 HD 122879 V* 14 06 25.1577457205 -59 42 57.253857893 5.90 6.64 6.50 6.33 6.18 B0Ia 159 1
64 HD 124314 ** 14 15 01.60615 -61 42 24.3831   8.96 6.64 6.45 6.31 O6V(n)((f)) 136 1
65 HD 133518 * 15 06 55.9722559425 -52 01 47.238970853 5.57 6.29 6.39     B2IVpHe 87 0
66 HD 135591 * 15 18 49.1429870266 -60 29 46.794326631 4.46 5.36 5.46 6.91   O8IV((f)) 148 0
67 * del Sco SB* 16 00 20.00528 -22 37 18.1431 1.30 2.20 2.32 2.36 2.49 B0.3IV 698 0
68 * ome Sco bC* 16 06 48.4269211 -20 40 09.090235 3.10 3.92 3.97 3.91 3.99 B1V 442 0
69 * nu. Sco ** 16 11 59.73568 -19 27 38.5361 3.42 4.05 4.00 3.90 3.87 B2V 358 0
70 * omi Sco V* 16 20 38.1806792 -24 10 09.549111 5.99 5.40 4.57 3.69 2.93 A4II/III 242 0
71 * sig Sco bC* 16 21 11.3157134 -25 35 34.051476 2.32 3.02 2.89 1.69 1.58 O9.5(V)+B7(V) 830 0
72 V* V760 Sco Al* 16 24 43.7186408435 -34 53 37.535017356   7.16 7.05     B4V 147 0
73 HD 147888 ** 16 25 24.2937199705 -23 27 36.816821785 6.71 7.05 6.74     B3/4V 198 0
74 HD 147889 pr* 16 25 24.3162969787 -24 27 56.570239619 8.56 8.73 7.90     B2III/IV 439 1
75 * rho Oph B * 16 25 35.0342946299 -23 26 46.942024392   5.26 6.66     B2V 122 0
76 * rho Oph A * 16 25 35.1182364594 -23 26 49.827436721 4.3 5.22 5.05     B2/3V 394 0
77 * i Sco *iN 16 30 12.4751393 -25 06 54.804270 3.93 4.72 4.79 4.85 4.99 B3V 284 1
78 HD 148937 SB* 16 33 52.3867163783 -48 06 40.476619334 6.49 7.12 6.71 7.61   O6f?p 358 4
79 * mu. Nor s*b 16 34 05.0202815 -44 02 43.128156 4.05 4.99 4.94 6.36   O9.7Iab 260 0
80 HD 149404 s*b 16 36 22.5628576926 -42 51 31.909559692 5.23 5.88 5.52 6.90   O8.5Iab(f)p 227 1
81 * zet Oph Be* 16 37 09.5390545 -10 34 01.529471 1.73 2.58 2.56 2.46 2.50 O9.2IVnn 1739 2
82 HD 150136 SB* 16 41 20.4156742370 -48 45 46.728092318 4.98 5.78 5.65 6.93   O3.5-4III(f*)+O6IV 173 0
83 HD 151804 s*b 16 51 33.7215112148 -41 13 49.928887100 4.45 5.29 5.22     O8Iaf 356 0
84 HD 152248 bL* 16 54 10.0614779606 -41 49 30.143138696 5.56 6.15 6.088     O7Iabf+O7Ib(f) 231 0
85 HD 152408 s*b 16 54 58.50567 -41 09 03.0964 5.17 5.92 5.77 7.00   O8Iape 350 0
86 HD 152424 s*b 16 55 03.3297426438 -42 05 26.993062976 6.11 6.69 6.27 7.49   OC9.2Ia 184 0
87 HD 153919 HXB 17 03 56.7728262865 -37 50 38.912077679 6.06 6.78 6.51 6.08 5.90 O6Iafcp 762 1
88 HD 154043 s*b 17 05 18.8802659494 -47 04 08.538992563 7.37 7.73 7.10 7.83   B2Iab 44 0
89 HD 155806 Be* 17 15 19.2484405697 -33 32 54.307297319 4.61 5.52 5.53     O7.5V((f))z(e) 209 0
90 HD 156201 * 17 17 45.5141583820 -35 13 27.019910833 8.34 8.70 8.01 7.31   B0.5Ia/ab 56 0
91 * gam Ara Be* 17 25 23.6593111 -56 22 39.814775 2.25 3.21 3.34     B1Ib 257 0
92 HD 157978 SB* 17 26 19.0043289489 +07 35 44.216167503 6.91 6.64 6.04 5.43 5.00 A1IVs+A2Vs+G0III 80 0
93 * lam Sco bC* 17 33 36.52012 -37 06 13.7648 0.52 1.48 1.62     B2IV+DA7.9 374 1
94 HD 161056 * 17 43 47.0220911640 -07 04 46.590611461 6.26 6.68 6.32 5.94 5.67 B3II/III 164 0
95 * 67 Oph * 18 00 38.7134668813 +02 55 53.595379606 3.34 3.96 3.93 3.84 3.81 B5I 387 0
96 HD 164073 * 18 02 00.5632615123 -48 48 37.655791051 7.55 8.05 8.03     B3III/IV 22 0
97 HD 164740 ISM 18 03 38.3 -24 22 35     9.10     ~ 17 1
98 HD 164906 Be* 18 04 25.8333235219 -24 23 08.369754699 6.78 7.61 7.381 7.11 6.91 B0Ve 118 0
99 HD 165319 * 18 05 58.8360539028 -14 11 52.998719141 8.15 8.63 8.04 7.50 7.00 O9.7Ib 69 1
100 * mu. Sgr s*b 18 13 45.8088401 -21 03 31.794073 3.60 4.07 3.85 3.58 3.38 B8Iab(e) 336 0
101 * 15 Sgr s*b 18 15 12.9061049161 -20 43 41.787295583 4.64 5.42 5.37 5.27 5.19 O9.7Iab 236 0
102 HD 167838 V* 18 17 37.7107293223 -15 25 50.561773114 6.83 7.19 6.73 7.60   B3Ia/ab 90 0
103 HD 167971 s*b 18 18 05.8954978252 -12 14 33.324312346 7.89 8.27 7.50 6.68 6.279 O8Iaf(n)+O4/5 273 0
104 HD 168076 ** 18 18 36.4221548165 -13 48 02.462547922 8.12 8.72 8.25 7.62 7.21 O4III(f) 182 0
105 HD 169454 s*b 18 25 15.1938696996 -13 58 42.305035144 7.39 7.61 6.71 5.82 5.13 B1Ia 311 0
106 HD 170740 SB* 18 31 25.6939093858 -10 47 45.006621390 5.51 5.96 5.72     B2/3II 173 1
107 HD 170938 s*b 18 32 37.7938285604 -15 42 05.894746307 8.58 8.84 7.99 7.28 6.45 B1Ia 67 0
108 HR 6989 ** 18 38 04.4789647691 -14 00 17.183935558   6.68 6.47     B8II/III 31 1
109 HD 172694 Be* 18 42 16.5710455992 -15 51 20.830358974 7.61 8.32 8.12 9.04   B2Ibe 50 1
110 * 1 Vul SB* 19 16 13.0378496330 +21 23 25.531302636 4.18 4.72 4.77 4.76 4.83 B4IV 112 0
111 HD 183143 s*b 19 27 26.5636908636 +18 17 45.191198361 8.25 8.08 6.86 5.74 4.79 B6Ia 413 0
112 * kap Aql * 19 36 53.4495162 -07 01 38.917563 4.050 4.930 4.960 4.90 4.94 B0.5IIIn 325 0
113 HD 185418 * 19 38 27.4810594267 +17 15 26.046198639 7 7.639 7.485     B0.5V 119 0
114 HD 185859 Em* 19 40 28.3246756731 +20 28 37.473468460 6.290 6.890 6.520 6.18 5.92 B0.5Iae 126 0
115 HD 186745 sg* 19 45 24.3491892184 +23 56 34.375632222 8.00 7.96 7.03     B8Ia 94 0
116 HD 186841 s*b 19 45 54.1346203334 +24 05 46.998850287 8.55 8.86 8.01 7.23 6.71 B1Ia 58 0
117 HD 203532 * 21 33 54.5737752124 -82 40 59.110819449 6.15 6.51 6.38     B3IV/V 85 0
118 NAME Local Bubble ISM ~ ~           ~ 709 0

    Equat.    Gal    SGal    Ecl

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2020.11.30-02:43:01

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