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2015-10-14 Young active star research with SONG and mini-SONG Huijuan Wang National Astronomical Observatories Chinese Academy of Charleston.

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Presentation on theme: "2015-10-14 Young active star research with SONG and mini-SONG Huijuan Wang National Astronomical Observatories Chinese Academy of Charleston."— Presentation transcript:

1 2015-10-14 Young active star research with SONG and mini-SONG Huijuan Wang National Astronomical Observatories Chinese Academy of Sciences @ Charleston

2 2015-10-14 Contents  Young active star  With SONG  With mini-SONG  When SONG + mini-SONG

3 Why young active star  The past of our Sun  The evolution history of Milky Way  Good targets for extrasolar planets search  Distinguish between variation in frequency caused by oscillation and activities 2015-10-14

4 PTTS CTTS WTTS ZAMS Early evolution of solar-like stars ( Neuhäuser 1997 )

5 2015-10-14  M < 2.5M ⊙ ( Late spectral type )  Early phase of evolution(t<10Myr/100Myr)  Obvious absorption line of Li 6708 Å  Weak emission line of Hα ( EW Hα ≤10Å )  No circle-stellar disk ( mostly )  Strong soft X-ray emission Characters of WTTS & PTTS

6 2015-10-14 Young active star  Background  Identification of a sample of young solar- type star candidates  Identification of an active spectroscopic binary: HD146875  Research of two young solar-type stars within 20pc  summary

7 2015-10-14 Background introduction  ROSAT soft X-ray survey  Observational research of WTTS -> central area of Taurus-Auriga (Neuheauser et al 1995; Wichmann et al 2000 )  Observational research of our group  Xinglong group : Li & Hu 1998  ROSAT bright source catalog & Tycho catalog = > sample of young solar type stars  criterion : logC + 0.4V (Lx > 10 30 erg s -1 )  Monitoring observation on 60 cm telescope at Xinglong observation station  WTTS candidates most distributed in the outside region of Taurus—Auriga

8 2015-10-14 Why high resolution?  Identify these YSS candidates  Study the relationship between them and the nearby young groups  Research the relationship between the EW of Li and the rotation period High resolution observations are necessary. ( Wichmann 1996; Martin 1998 )

9 2015-10-14 Research method  Sample  V< 9.5 mag,63 stars  Observation  2.16m tel & Coude echelle spectrograph(R = 40000 )  Data reduction & analysis  IRAF software (Echelle, Daophot)  Expect results  Equivalent width (EW) of Li  Radial velocity (RV)  Projected rotation velocity  Spectroscopic binary etc.

10 2015-10-14 stars year  23 -- 2000 & 2001  37 -- 2004 & 2005  18 -- 2006  22 -- 2007  31 -- 2008 ==>Sample : 63 stars ( 167spectra ) Spectroscopic observation log

11 2015-10-14

12 Histogram of EW (Li)

13 2015-10-14

14 WTTW+PT TS 21 stars 33% ZAMS 20stars 32% MS 22 stars 35% About 2/3 are young stars

15 2015-10-14 Young active star  Background  Identification of a sample of young solar- type star candidates  Identification of an active spectroscopic binary: HD146875  Research of two young solar-type stars within 20pc  summary

16 2015-10-14 Young low-mass binary  Opportunity to derive precise measurements of the fundamental stellar parameters of their constituent stars ( stellar mass & radius)  Derive calibrations of young-star evolutionary models  Determine the unbiased mass-ratio and orbital-period distribution  The sample of well-studied young low-mass binaries remains small  High resolution spectroscopic observation (powerful technique)  Identify binary  Obtain accurate parameters (mass & mass ratio)

17 2015-10-14 HD146875  Bright X-ray source (Schwope 2000)  V = 8.81 mag  None hight resolution spectroscopic observations before then  2005.04.25 : show double lines  2006.02.17 & 06.09 : show shift between lines  till 2008.03.25 : totally 45 spectra

18 2015-10-14

19 Radial velocity curve

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21 Spectral Disentangling  KOREL code (Hadrava 1995)

22 2015-10-14

23 Photometic varibility  2008.02.15-04.14  Amplitude:0.057mag  Cased by spots on the primary, but not ellipsoidal distortion  a synchronous system (spots face us / pri -)

24 2015-10-14 Age - method 1

25 2015-10-14 Age - method 2  Age ~ 100 - 150Myr

26 2015-10-14 - = Subtracted profile Chromospheric activity Observed spectrum Model G9 + K0  Strong chromospheric activity on the primary Emission originates in plage-like regions

27 2015-10-14 Young active star  Background  Identification of a sample of young solar- type star candidates  Identification of an active spectroscopic binary: HD146875  Research of two young solar-type stars within 20pc  summary

28 2015-10-14  TW Hya Association(TWA)  TW Hya 20Myr , 56.4PC The nearest star formation region. ( Zuckerman b. et al 2001 , 2004 ) Nearby young groups

29 2015-10-14  11 stars in our sample:  EW(Li) > 100 mÅ  D < 50 PC  So close & so young  early evolution of the sun  understand the structure and the evolution history of the Milky Way  perfect sample for exoplanet survey

30 2015-10-14 2 stars D<20PC ( Wang & Wei, 2009, RAA, 9, 315 )

31 2015-10-14 HIP54446843 Age (Myr)100-80030-100

32 2015-10-14 Young active star  Background  Identification of a sample of young solar- type star candidates  Identification of an active spectroscopic binary: HD146875  Research of two young solar-type stars within 20pc  summary

33 2015-10-14 Summary  Finish the identification of a sample comprising 63 stars, and 2/3 of them are young solar-type stars (YSS)  Identify a ZAMS active double lined spectroscopic binary : HD 146875  Spectroscopic study of two YSS (HIP 544 & HIP 46843 ) within 20 pc of the sun

34 S hortage of these observations  Single site, single telescope  Time gap is big  We need network & continuous observations 2015-10-14 SONG

35 With SONG -spectroscopy  Stellar Observations Network Group(SONG)  Eight telescopes (3/8 in progress)  Filling the time gap ( avoid aliasing frequencies)  Astroseismic research of pulsating stars  Astroseismic research of Other objects including young active stars 2015-10-14

36 Astroseismology, C. Aerts,J. Christensen Dalsgaard, D.W. Kurtz 2015-10-14

37 With mini-SONG  Photometry  Multicolor  Simultaneous  Distinguish variation caused by planets and stellar activities  Low frequency oscillation of stars  Primary parameters of stars 2015-10-14

38 When SONG + mini-SONG  Precise spectroscopy + multicolor photometry  Simultaneous!  Distinguish between variation in frequency caused by oscillation and activities  Oscillation evolution of solar like stars along the evolution track …… 2015-10-14

39 What can we do?  For our SONG & mini-SONG  Cooperate shoulder to shoulder  Research, site … Let’s enjoy it ! 2015-10-14

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