2011A&A...529A..44W

Query : 2011A&A...529A..44W

2011A&A...529A..44W - Astronomy and Astrophysics, volume 529A, 44-44 (2011/5-1)

Dust in brown dwarfs and extra-solar planets. III. Testing synthetic spectra on observations.

WITTE S., HELLING C., BARMAN T., HEIDRICH N. and HAUSCHILDT P.H.

Abstract (from CDS):

This work is concerned with dust formation in ultra-cool atmospheres, encompassing the latest type stars, brown dwarfs, and hot giant exoplanets. Dust represents one of the most important and yet least understood sources of opacity in these types of objects. We compare our model spectra with SpeX data in order to draw conclusions about the dust cloud structure and related quantities in ultra-cool atmospheres. We use the self-consistent Drift-Phoenix atmosphere code, which features a kinetic dust formation mechanism and accounts for the dust cloud influence on the spectra. We present fits of our latest model spectra to observations that cover a wide range of our model grid. The results are remarkably good, yielding significant improvement over the older C ond-/Dusty-Phoenix models, especially in the L-dwarf regime. The new models are able to properly reproduce observed spectra, including complicated features such as the molecular band strengths. This raises confidence in the reliability of our dust-modeling approach. We demonstrate that our code produces excellent results concerning the fitting with observations. This suggests that our dust cloud and atmosphere structures are reasonably accurate. Like all other current cloud models, ours is not able to produce satisfying results for spectral types later than L6 without manually tuning down the amount of dust. Our results show the formation of convective cells within the cloud, which are able to destroy the lower cloud parts. The dust opacity is reduced significantly without the need to tune the dust cloud thickness. There are indications that the cycle of dust accumulation and cloud destruction by convection is time-dependent on rather long timescales. Considering a statistical distribution of locally variable dust clouds over a dwarf's surface can result in a large number of spectral configurations for the same model atmosphere parameters, hence introducing an additional and more or less random degree of freedom to those atmospheres. Without resorting to the model atmosphere parameters, this alone can account for the unusually red and blue objects that have been discovered.

Abstract Copyright:

Journal keyword(s): astrochemistry - methods: numerical - stars: atmospheres - stars: low-mass - brown dwarfs

Simbad objects: 97

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Number of rows : 97
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 2MASS J00013044+1010146 LM* 00 01 30.4547047752 +10 10 14.816690076           M6V 5 0
2 2MASS J00025097+2454141 BD* 00 02 50.97576 +24 54 14.1696           L5.5 7 0
3 NAME L 362-29 BC BD* 00 04 34.8671722377 -40 44 06.463544237       19.61 16.88 L5+L5 111 0
4 2MASS J00115060-1523450 LM* 00 11 50.6121015576 -15 23 45.275326692           M7.5Ve 4 0
5 2MASS J00335534-0908247 LM* 00 33 55.3647925656 -09 08 24.705751524           M8Ve: 4 0
6 LSPM J0036+1821 BD* 00 36 16.1118891182 +18 21 10.286665966       18.451 16.053 L3.5 213 0
7 2MASS J00552554+4130184 LM* 00 55 25.5477487536 +41 30 18.438655824           M8Ve: 6 0
8 2MASS J00583814-1747311 LM* 00 58 38.1348591096 -17 47 30.977623608           M6V 3 0
9 2MASSI J0103320+193536 BD* 01 03 32.03712 +19 35 36.1824           L6V 77 0
10 2MASS J01174748-3403258 BD* 01 17 47.4931545768 -34 03 25.849109412       21.040 18.825 L1gamma 27 0
11 2MASS J01415823-4633574 BD* 01 41 58.2329929560 -46 33 57.347594316           L0gamma 69 0
12 2MASS J01443536-0716142 BD* 01 44 35.4064614144 -07 16 14.318758700           L6.5 54 0
13 2MASS J01470204+2120242 LM* 01 47 02.0477509032 +21 20 24.178069284           M7.5Ve: 3 0
14 2MASS J01532750+3631482 LM* 01 53 27.4977244344 +36 31 48.282054636           M6V 4 0
15 2MASS J02060880+2235593 BD* 02 06 08.80008 +22 35 59.3340           L4.5 11 0
16 2MASS J02081833+2542533 BD* 02 08 18.3864053730 +25 42 53.199852759           L1V 44 0
17 SIPS J0227-1624 BD* 02 27 10.3319565862 -16 24 47.668301470         16.846 L1.5 28 0
18 2MASSI J0228110+253738 BD* 02 28 11.01312 +25 37 38.0136           L0 24 0
19 HD 16270B BD* 02 35 59.9394221640 -23 31 20.410151736           L1.5 42 0
20 2MASS J02415367-1241069 BD* 02 41 53.7110817850 -12 41 07.161725942           L2.5 13 0
21 2MASS J02425693+2123204 BD* 02 42 56.93928 +21 23 20.4288           L4 6 0
22 NAME Teegarden's Star LM* 02 53 00.8917932409 +16 52 52.632190137   17.21   14.1   dM6 157 0
23 2MASS J03202839-0446358 LM* 03 20 28.3630482681 -04 46 36.396685568           M8.5+T5 44 0
24 LP 944-20 LM* 03 39 35.2523500210 -35 25 43.641996333     18.69 16.39 13.288 M9.5Ve 289 0
25 [BNM2013] 32.03 1131 TT* 03 44 21.1458506040 +32 06 16.699596840         18.207 ~ 28 0
26 Cl* Melotte 22 KPNO 2 BD* 03 45 43.1616128256 +25 40 23.239779672         17.36 L0V 126 0
27 2MASS J04035944+1520502 LM* 04 03 59.4331380456 +15 20 50.601240528           M7V 2 0
28 2MASS J04390101-2353083 BD* 04 39 01.0048450008 -23 53 08.495187288           L4.5 42 0
29 2MASS J04414825+2534304 Y*O 04 41 48.2522778888 +25 34 30.571843656         17.03 M8e 59 0
30 2MASS J04574903+3015195 Y*O 04 57 49.0191643176 +30 15 19.132112088           M9 27 0
31 V* V2384 Ori EB* 05 35 21.8473218600 -05 46 08.571352260       19.21 17.28 M7 99 1
32 HD 42581B BD* 06 10 34.80 -21 52 00.0           T6.5 504 0
33 2MASS J06540564+6528051 BD* 06 54 05.64120 +65 28 05.1672           L5.5 9 0
34 2MASSI J0727182+171001 BD* 07 27 18.24600 +17 10 01.2072           T7.0 91 0
35 SSSPM J0829-1309 BD* 08 28 34.1716399433 -13 09 19.841445886         16.07 L2 51 0
36 2MASS J08350622+1953050 BD* 08 35 06.22944 +19 53 05.0532           L5 39 0
37 SIPS J0847-1532 BD* 08 47 28.7413750872 -15 32 37.370330484           L1.5 38 0
38 2MASS J08511627+1817302 BD* 08 51 16.27584 +18 17 30.2316           L6 11 0
39 SIPS J0921-2104 BD* 09 21 14.1068893303 -21 04 44.417691256         16.50 L1 48 0
40 2MASS J10101480-0406499 BD* 10 10 14.80704 -04 06 49.9320           L6 60 0
41 2MASS J10221489+4114266 BD* 10 22 14.8720836024 +41 14 26.514370356           L0.5 42 0
42 2MASS J10332186+4005499 BD* 10 33 21.86712 +40 05 49.9272           L6 11 0
43 LSPM J1048+0111 BD* 10 48 42.8144208091 +01 11 58.221081965       19.4   L1 55 0
44 2MASS J11000965+4957470 BD* 11 00 09.6403914192 +49 57 46.765961892           L3 17 0
45 2MASS J11040127+1959217 BD* 11 04 01.2774943824 +19 59 21.714139176           L4 41 0
46 2MASS J11150577+2520467 LM* 11 15 05.7672463824 +25 20 46.926898512           M7.5Ve: 3 0
47 2MUCD 10984 LM* 11 24 04.8863943864 +38 08 05.432794728         16.12 M8.5V 19 0
48 2MASS J11323833-1446374 LM* 11 32 38.3560297824 -14 46 36.671465820           M7V 2 0
49 TWA 26 LM* 11 39 51.1378374696 -31 59 21.443660124         15.83 M8e 108 0
50 2MASS J12070374-3151298 BD* 12 07 03.7315711416 -31 51 30.028121316           L2 9 0
51 2MASS J12121714-2253451 LM* 12 12 17.1357545904 -22 53 45.258389628           M8Ve 3 0
52 2MASS J12165918+3003054 BD* 12 16 59.18568 +30 03 05.4684           L4 5 0
53 2MASS J12212770+0257198 BD* 12 21 27.7124211648 +02 57 19.767907440           L0.5 42 0
54 2MASS J12304562+2827583 BD* 12 30 45.6297250175 +28 27 58.176169437           L2 11 0
55 TWA 29 LM* 12 45 14.1607780560 -44 29 07.728263340         18.0 M9.5p 48 0
56 2MASS J12531161+2728145 LM* 12 53 11.6150115729 +27 28 14.677667296           M9 5 0
57 NAME Kelu-1 BD* 13 05 40.1642434199 -25 41 05.712165150         16.85 L2+L3.5 254 0
58 2MASS J13420311+1340222 BD* 13 42 03.11088 +13 40 22.2960           L6 10 0
59 2MASS J13452562+5216337 BD* 13 45 25.62 +52 16 33.8           L3 5 0
60 2MASS J14171672-0407311 LM* 14 17 16.7156963280 -04 07 31.014615576           M8Ve: 3 0
61 LP 271-25 LM* 14 28 43.2275214164 +33 10 39.259309081   21.2   17.8   M9Ve 250 0
62 2MASS J14313097+1436539 BD* 14 31 30.9245665010 +14 36 53.851624497           L1 15 0
63 2MASS J14392836+1929149 BD* 14 39 28.1499428599 +19 29 15.908790370           L1V 131 0
64 2MASSW J1506544+132106 BD* 15 06 54.3299045806 +13 21 06.039351151           L3 103 0
65 2MASSW J1507476-162738 BD* 15 07 47.6758255542 -16 27 40.113982846     22.136 18.928 16.579 L5V 199 0
66 2MASS J15200224-4422419 ** 15 20 02.24160 -44 22 41.9880       19.4 16.89 L1.5+L4.5 22 0
67 2MASS J15243203+0934386 LM* 15 24 32.0392245048 +09 34 38.591472900           M7Ve: 5 0
68 2MASS J15345325+1219495 BD* 15 34 53.2688675472 +12 19 49.340326224           L3 16 0
69 2MASS J15484912+1722359 BD* 15 48 49.01760 +17 22 35.3712           L4.5 14 0
70 2MASS J16173168+4019003 BD* 16 17 31.68864 +40 19 00.3684           L6.5 7 0
71 2MASS J16225533+1159238 BD* 16 22 55.33584 +11 59 23.8920           L4.5 7 0
72 2MASS J16335933-0640552 BD* 16 33 59.33184 -06 40 55.2396           L5.5 12 0
73 2MASS J16452211-1319516 BD* 16 45 22.0921435313 -13 19 52.257875238           L1.5 38 0
74 SDSS J164916.89+464340.0 BD* 16 49 16.89 +46 43 40.0           L4.5 4 0
75 VB 8 LM* 16 55 35.2557374336 -08 23 40.753073075   18.7 16.916 14.566 12.24 M7Ve 430 0
76 2MASS J17072343-0558249 ** 17 07 23.43528 -05 58 24.9204       18.9 15.38 M9+L3 31 0
77 2MASSI J1711135+232633 BD* 17 11 13.5212198520 +23 26 33.248533236           L0e 17 0
78 2MASS J17310140+5310476 BD* 17 31 01.40784 +53 10 47.6148           L5 9 0
79 2MASS J17364839+0220426 LM* 17 36 48.4014913128 +02 20 42.598573548           M8V 5 0
80 2MASS J18071593+5015316 BD* 18 07 15.9375533592 +50 15 31.636789740           L1 43 0
81 2MASS J18244344+2937133 LM* 18 24 43.4432701968 +29 37 13.485771552           M6V 3 0
82 VB 10 Er* 19 16 57.6109547886 +05 09 01.600923413     17.30     M8V 476 1
83 2MASSI J2002507-052152 BD* 20 02 50.7115352376 -05 21 52.556536728           L5.5 34 0
84 2MASS J20282035+0052265 BD* 20 28 20.3489639184 +00 52 26.588682516           L2.5 38 0
85 SIPS J2049-1944 LM* 20 49 19.7504586496 -19 44 32.750924046       17.850 15.449 M7.5e 21 0
86 2MASS J20575409-0252302 BD* 20 57 54.0936475128 -02 52 30.247487652           L1 63 0
87 2MASSW J2101154+175658 BD* 21 01 15.44112 +17 56 58.6860           L7+L8 29 0
88 2MASS J21073169-0307337 BD* 21 07 31.6891615128 -03 07 33.669058548           L0 16 0
89 2MASS J21324036+1029494 BD* 21 32 40.36104 +10 29 49.4808           L5.5 12 0
90 2MASS J21335274+1018410 BD* 21 33 52.74144 +10 18 41.0184           L3.5 5 0
91 2MASSW J2148162+400359 BD* 21 48 16.2986589335 +40 03 59.331851811           L7 66 0
92 2MASSI J2151254-244100 BD* 21 51 25.43136 -24 41 00.0600       21.831 19.252 L3 15 0
93 2MASS J22443167+2043433 BD* 22 44 31.67376 +20 43 43.3020           L6-L8gamma 99 0
94 2MASS J22495345+0044046 BD* 22 49 53.45592 +00 44 04.6608           L3+L5 44 0
95 2MASS J23280459-1038452 BD* 23 28 04.59576 -10 38 45.2472           L2 10 0
96 SSSPM J2352-2538 LM* 23 51 50.4633005025 -25 37 36.861356975           M9e 44 0
97 APMPM J2354-3316C LM* 23 54 09.2806070800 -33 16 26.761079407         16.00 M8.5Ve 21 0

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