2015MNRAS.449.3867G

Query : 2015MNRAS.449.3867G

2015MNRAS.449.3867G - Mon. Not. R. Astron. Soc., 449, 3867-3878 (2015/June-1)

Variation of the ultraviolet extinction law across the Taurus-Auriga star-forming complex. A GALEX based study.

GOMEZ DE CASTRO A.I., LOPEZ-SANTIAGO J., LOPEZ-MARTINEZ F., SANCHEZ N., DE CASTRO E. and CORNIDE M.

Abstract (from CDS):

The Taurus-Auriga molecular complex (TMC) is the main laboratory for the study of low-mass star formation. The density and properties of interstellar dust are expected to vary across the TMC. These variations trace important processes such as dust nucleation or the magnetic field coupling with the cloud. In this paper, we show how the combination of near ultraviolet (NUV) and infrared (IR) photometry can be used to derive the strength of the 2175Å bump and thus any enhancement in the abundance of small dust grains and polycyclic aromatic hydrocarbons in the dust grains size distribution. This technique is applied to the envelope of the TMC, mapped by the GALEXAll Sky Survey (AIS). Ultraviolet and IR photometric data have been retrieved from the GALEX-AIS and the 2MASS catalogues. NUV and K-band star counts have been used to identify the areas in the cloud envelope where the 2175Å bump is weaker than in the diffuse interstellar medium namely, the low column density extensions of L1495, L1498 and L1524 in Taurus, L1545, L1548, L1519, L1513 in Auriga and L1482-83 in the California region. This finding agrees with previous results on dust evolution derived from Spitzer data and suggests that dust grains begin to decouple from the environmental Galactic magnetic field already in the envelope.

Abstract Copyright: © 2015 The Authors Published by Oxford University Press on behalf of the Royal Astronomical Society (2015)

Journal keyword(s): stars: formation - ISM: clouds - dust, extinction - ultraviolet: ISM - ultraviolet: stars

Simbad objects: 28

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Number of rows : 28
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 698 Be* 00 11 37.1465837352 +58 12 42.580737288 6.86 7.26 7.08     B7:Ib-II(e) 90 0
2 HD 3191 Pu* 00 35 50.8441094127 +61 27 35.317246697 8.57 8.99 8.60 8.89   B1IV:nn 60 0
3 BD+57 245 * 01 18 59.9298347568 +58 05 58.481729700 9.6 10.12 9.85     B 17 0
4 V* V765 Cas EB* 01 19 09.0531688632 +58 17 26.025576900 10.88 11.06 10.78     ~ 34 0
5 BD+57 249 EB* 01 19 23.0179943424 +58 18 20.253810888 9.83 10.12 9.83     B1V 30 0
6 BD+57 252 * 01 19 34.1802997848 +58 15 22.131283644 9.2 9.77 9.51     B1IV 44 0
7 NGC 457 100 Pu* 01 19 46.4257650576 +58 12 25.928482572 10.34 10.88 10.61     ~ 14 0
8 NGC 1499 HII 04 03 18 +36 25.3           ~ 170 0
9 LDN 1498 DNe 04 11.0 +24 58           ~ 286 0
10 LDN 1495 DNe 04 18.1 +27 37           ~ 366 1
11 LDN 1506 DNe 04 20.0 +25 17           ~ 78 0
12 NAME Auriga reg 04 20 00.0 +38 05 00           ~ 207 0
13 LDN 1524 DNe 04 27 57.7 +24 39 18           ~ 83 0
14 LDN 1482 DNe 04 28.3 +35 37           ~ 27 0
15 NAME Tau-Aur Complex SFR 04 30 +25.0           ~ 1357 0
16 NAME Kutner's Cloud MoC 04 32 44.6 +24 23 13           ~ 273 0
17 LDN 1483 DNe 04 35 19 +36 26.1           ~ 11 0
18 NAME Taurus Complex SFR 04 41.0 +25 52           ~ 4418 0
19 TMC-1 MoC 04 41 45.9 +25 41 27           ~ 1676 0
20 LDN 1513 DNe 04 52.0 +30 50           ~ 16 0
21 LDN 1515 DNe 04 53.2 +30 55           ~ 5 0
22 LDN 1519 DNe 04 55.7 +30 35           ~ 16 0
23 LDN 1544 DNe 05 04 16.6 +25 10 48           ~ 863 0
24 LDN 1545 DNe 05 15.3 +26 43           ~ 8 0
25 LDN 1548 DNe 05 16.1 +26 13           ~ 12 0
26 LDN 1552 DNe 05 17.7 +26 03           ~ 23 0
27 LDN 1630 DNe 05 45.5 -00 59           ~ 381 0
28 NAME Gould Belt PoG ~ ~           ~ 874 1

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