2017MNRAS.465.4482Y

Query : 2017MNRAS.465.4482Y

2017MNRAS.465.4482Y - Mon. Not. R. Astron. Soc., 465, 4482-4499 (2017/March-2)

Do water fountain jets really indicate the onset of the morphological metamorphosis of circumstellar envelopes?

YUNG B.H.K., NAKASHIMA J.-I., HSIA C.-H. and IMAI H.

Abstract (from CDS):

Small-scale bipolar jets with short dynamical ages from 'water-fountain' (WF) sources are regarded as an indication of the onset of circumstellar envelope morphological metamorphosis of intermediate-mass stars. Such a process usually happens at the end of the asymptotic giant branch (AGB) phase. However, recent studies found that WFs could be AGB stars or even early planetary nebulae. This fact prompted the idea that WFs may not necessarily be objects at the beginning of the morphological transition process. In the present work, we show that WFs could have different envelope morphologies by studying their spectral energy distribution profiles. Some WFs have spherical envelopes that resemble usual AGB stars, while others have aspherical envelopes, which are more common to post-AGB stars. The results imply that WFs may not represent the earliest stage of morphological metamorphosis. We argue further that the dynamical age of a WF jet, which can be calculated from maser proper motions, may not be the real age of the jet. The dynamical age cannot be used to justify the moment when the envelope begins to become aspherical, nor to tell the concrete evolutionary status of the object. A WF jet could be the innermost part of a larger well-developed jet, which is not necessarily a young jet.

Abstract Copyright:

Journal keyword(s): radiative transfer - stars: AGB and post-AGB - stars: evolution - stars: mass-loss - stars: winds - outflows - infrared: stars - infrared: stars

Status at CDS : Large table(s) will be appraised for possible ingestion in VizieR.

CDS comments: IRAS 17441-2441 is a misprint for IRAS 17441-2411.

Simbad objects: 40

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Number of rows : 40
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 56126 pA* 07 16 10.2590823192 +09 59 47.954735376   9.20 8.32     F0/5Ia 320 0
2 OH 231.8+04.2 OH* 07 42 16.947 -14 42 50.20           M10III+A 533 0
3 IRAS 08005-2356 AB* 08 02 40.7049577608 -24 04 42.588796404   12.454 11.139 10.930   F5Iae 95 0
4 V* RW LMi C* 10 16 02.2777043904 +30 34 19.045098516       15.27   C4,3e 396 0
5 V* V Hya C* 10 51 37.2615873024 -21 15 00.333928044   12.23 6.80 7.42   C-N:6 366 0
6 3C 286 Sy1 13 31 08.2883506368 +30 30 32.960091564   17.51 17.25     ~ 4341 2
7 V* RS Vir Mi* 14 27 16.3912599864 +04 40 41.126332044   10.27 7.00     M8 211 0
8 IRAS 15103-5754 pA? 15 14 18.5363258040 -58 05 20.384225484           ~ 33 0
9 IRAS 15445-5449 pA* 15 48 19.41672 -54 58 20.1468           O-rich 33 0
10 IRAS 15544-5332 pA? 15 58 18.830 -53 40 39.84           O-rich 15 0
11 V* X Her AB* 16 02 39.1730141112 +47 14 25.265335956   7.64 6.58     M6III 237 0
12 IRAS 16342-3814 pA* 16 37 39.8691983808 -38 20 17.443998996           ~ 136 0
13 IRAS 16552-3050 pA? 16 58 27.31 -30 55 07.9           ~ 30 1
14 RAFGL 5385 pA* 17 47 13.48944 -24 12 51.4404           F4I 74 0
15 4C 09.57 BLL 17 51 32.81857326 +09 39 00.7284066   17.46 16.78 15.57   ~ 945 1
16 * 89 Her pA* 17 55 25.1883476136 +26 02 59.968457664 5.36 5.70 5.36 5.06 4.94 F2Ibp 411 0
17 IRAS 18043-2116 OH* 18 07 20.86584 -21 16 12.1116           O-rich 41 0
18 IRAS 18056-1514 OH* 18 08 28.39512 -15 13 28.3872           O-rich 12 0
19 IRAS 18113-2503 pA? 18 14 26.70240 -25 02 55.5792           ~ 30 0
20 OH 012.8-00.9 OH* 18 16 49.21368 -18 15 01.6560           O-rich 50 0
21 IRAS 18286-0959 pA* 18 31 22.94232 -09 57 21.3948           O-rich 39 0
22 OH 016.3-03.0 OH* 18 31 31.4874347184 -16 08 46.185345528           O-rich 14 1
23 NVSS J184603-000338 Rad 18 46 03.78225655 -00 03 38.2548248           ~ 8 1
24 OH 031.0+00.0 OH* 18 47 41.13768 -01 45 11.4048           O-rich 143 1
25 IRAS 18455+0448 OH* 18 48 02.3030850840 +04 51 30.484399068           O-rich 26 0
26 OH 031.0-00.2 OH* 18 48 43.01976 -01 48 30.1464           O-rich 53 0
27 NVSS J185146+003532 Rad 18 51 46.72295 +00 35 32.3649           ~ 84 1
28 IRAS 18556+0811 OH* 18 58 04.2306358248 +08 15 30.678343632           ~ 28 0
29 OH 037.1-00.8 OH* 19 02 06.28560 +03 20 15.9900           O-rich 74 0
30 OH 035.2-02.6 pA* 19 05 02.0381133528 +00 48 50.467761000         14.36 G0-5 46 0
31 IRAS 19134+2131 pA* 19 15 35.2042352712 +21 36 33.834328956           ~ 65 0
32 IRAS 19149+1638 OH* 19 17 11.5605423696 +16 43 54.641769744           O-rich 9 0
33 IRAS 19190+1102 pA? 19 21 25.14600 +11 08 41.4708           ~ 25 0
34 IRAS 19312+1130 OH* 19 33 34.5608228036 +11 37 02.723200498           O-rich 12 0
35 IRAS 19356+0754 pA? 19 38 01.1766254640 +08 01 32.990079972           ~ 12 1
36 IRAS 19395+1827 OH* 19 41 44.5486456368 +18 34 25.707198504           ~ 12 0
37 RAFGL 5000 OH* 19 51 57.7139791920 +08 42 54.689683320           ~ 28 0
38 EM* MWC 349 ** 20 32 45.499080 +40 39 36.74124   15.88 13.15 12.13   Bep 801 0
39 V* U Equ pA* 20 57 16.2828486240 +02 58 44.540043312   14.324 13.576 14.168   O-rich 59 0
40 HD 235858 pA* 22 29 10.3748806056 +54 51 06.344572284   11.40 9.52 8.47 7.34 G5Ia 254 0

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