“Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables:...
Transcript of “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables:...
![Page 1: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/1.jpg)
“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries”
T.D.Kinman & W.R. BrownarXiv:1003.3656
Impromptu review of a paper(Not a real talk)
(so you can sleep through this....)
Karen KinemuchiUniversity of Florida/Universidad de Concepcion
![Page 2: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/2.jpg)
Why am I curious about this?
● Proof that my thesis paper was read by someone else besides me and my thesis advisor!
● Proof that my thesis had something interesting to propel more research
● RR Lyrae stars are interesting stuff and everyone should like them.
![Page 3: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/3.jpg)
RRL – the animated gifcourtesy of J. Hartman (Havard) and K. Stanek (OSU) APOD:2007 April 15
![Page 4: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/4.jpg)
Quick background
● RR Lyrae (RRL) stars– Pop II pulsating stars and distance indicators– Spectral type AF– Bailey types and pulsational modes
● Oosterhoff groups – Oo I : merger/accretion events, halo pop– Oo II: disk like, monotonic cloud formation
![Page 5: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/5.jpg)
What's the problem?
● How to distinguish ctype RRL (RRc or RR1) from eclipsing binary stars (W UMa)
● Field survey inconsistencies– QUEST: 17% RRc; SDSS Strip 82: 22% RRc– ROTSEI: 38% RRc– GGC: OoI clusters: 20%
OoII clusters: 45%
● Period distribution inconsistency w/ ROTSEI
![Page 6: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/6.jpg)
Commandeering Data
● Photoelectric data from Lowell, CCD data from Tenagra Observatory (yes, from ST:TNG!)
● Additional photometric data from NSVS, ASAS● Spectra from MMT● Region near NGP – 21 RRL
Fig1. Red pentagons: GCVS RRL. Filled circlesare RRab, open circles are RRc, and opentriangles are delta Scuti stars. Small filledsquares are eclipsing binaries as definedby Akerlof et al. 2001.
![Page 7: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/7.jpg)
Some LTC results:
old solution preferredsolution
open circles:Lowellphotoelectricdata
filled circle:Tenagra CCD
triangles: ROTSEIphotometry
![Page 8: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/8.jpg)
RRab & Eclipsers
![Page 9: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/9.jpg)
Reclassified RRc > Eclipsers
![Page 10: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/10.jpg)
Results from Spectra
● Measured MgII (4481) line for rotational broadening. Wider for eclipsers.
● Derived metallicity using EW. Eclipsers: solar. RRL> halo.
![Page 11: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/11.jpg)
More results● From the light curves, derived Fourier
decomposition parameters, amplitudes, rise times. Used Sandage 2004 to derive [Fe/H].
● Determined absolute magnitudes and distances; paired with rad. vel. and proper motions
● Eclipsers: DISK● RRL: HALO● Thus, reclassification of 6 stars to eclipser
![Page 12: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/12.jpg)
Distinguishing RRL vs EclipserRed: RRLBlack: Eclipsertriangles: delta Sctred crosses: reidentified eclipsers
upper plot: local neighborhood
lower plot: their field sample
![Page 13: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/13.jpg)
Questions posed....
● From their sample size, 25% are RRc. Is this representative of ROTSEI survey area (originally 38%)?
● How robust is the photometric method to obtain metallicity? Sandage (2004) method vs. Jurcsik & Kovacs (1996) method??
● Spectroscopic technique good for small sample, but not for a big one!
![Page 14: “Low Amplitude Variables: Distinguishing RRL Stars … file“Low Amplitude Variables: Distinguishing RRL Stars form Eclipsing Binaries” T.D.Kinman & W.R. Brown arXiv:1003.3656](https://reader031.fdocuments.in/reader031/viewer/2022020114/5b8535de7f8b9aef498dee7a/html5/thumbnails/14.jpg)
Where do I go from here?● We need to confirm photometric vs spectroscopic
method – stay tuned!
(some papers are coming....)● Follow up work on RRc from NSVS ....