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H Fluorescence in UV Active Binaries

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Title: H Fluorescence in UV Active Binaries


1
H? Fluorescence in UV Active Binaries
  • Todd Vaccaro

2
UV Active Binaries
  • ?hot?cool
  • Evolved (white dwarf or sub-dwarf companion)
  • Small orbit ? illuminated secondary (tidal
    interaction, circular orbit, synchronous
    rotation)
  • Orbit not too small ? detached binary (no
    accretion disks or rapid mass transfer)

3
H? fluorescence in UV Active (eclipsing) Binaries
  • Incident UV absorbed in secondarys chromosphere
    and reprocessed (H? emission)
  • Fluorescent region rotates in and out of view
    (phase dependent emission)
  • Max em. (inf. conj.) vs. Max abs. (eclipse)
  • Model the profile and probe the chromosphere

4
Wilson-Devinney (WD) Program
  • Model lcs and rvs for photometry and
    spectroscopy
  • Differential Corrections (DC) ? Stellar and
    orbital parameters
  • Simultaneous solutions w/ lcs and rvs
  • Model spectral line profiles

5
Candidates FF Aqr V471 Tau
  • Common characteristics
  • -Phase dependent H? emission
  • -Total eclipsing binaries
  • -Circular orbits
  • -Chromospheric activity
  • -Both bright (V?9m)
  • Differences
  • -Stellar types (mass, size, temp.)
  • -Orbital periods size

6
Our Observations (Oct. 29-Nov. 9, 1998)
  • Simultaneous photometry and spectroscopy
  • KPNO
  • -0.9m Coudé (KPNO)
  • -0.9m BVRI CCD (SARA)
  • Clear most nights (some wind/fog)
  • Nov. 5 full moon too close to V471 Tau

7
FF Aqr
  • Eclipsing discovery (Dworetsky et al. 1977)
  • - sdOB G8III
  • - P9.2d
  • - i81
  • - q4.0 (?)
  • - T140,000K, T24,700K
  • - U light curve (original ephemeris)
  • - Spots cover 40 (Dorren et al. 1983)
  • - R1.1R? , R25.7R? , M1.5M? , M22M? (Etzel
    et al. 1988)
  • - Phase dependent H? emission (Marilli et al.
    1995)

8
Spot Analysis FF Aqr
  • Initial T factor0.80
  • 5 spots needed to fit our lcs
  • DC adjustment of spot parameters

9
Profile Analysis FF Aqr
  • Model FeI line (6400.0Ã…)
  • -
  • - Star too small! (R27.1R?)
  • H? Modeling
  • - Fit absorption near eclipse
  • - Fit emission near ?0.5 with 76? spot
  • - Model too narrow
  • - Over estimates intermediate phases
  • - Multiple components (wide blue emission
    ?0.74)
  • -

10
Other emission sources FF Aqr
  • Extended structures
  • - AB Dor prominences (Cameron Robinson 1989)
  • - FF Aqr extended atmosphere (Baliunas 1986)
  • Mass loss
  • - Eruptive events (coronal mass ejections)
  • - Stellar wind
  • - dP/dt scenario?

11
Conclusion FF Aqr
  • Period increased?
  • Mass loss?
  • Extended structures likely but more phase
    coverage needed
  • Velocities of sdOB needed for q
  • A future set of solutions for a range of q and i
    with the new stellar radius

12
V471 Tau
  • Eclipsing discovery (Nelson Young 1970)
  • - White Dwarf K2V
  • - P12.5 hr
  • - i80
  • - q1.0, SB2 (Shaefer 1995)
  • - T132400K (Barstow et al. 1997), T25000K
  • - Period changes binary ephemeris (Bois et al.
    1988)
  • - 3rd body (brown dwarf?) (Guinan Ribas 2001)
  • - Spots activity cycle?12 yrs (Ibanoglu 1989)
  • - R1.01R? , R2.75R? , M1.8M? , M2.8M?
  • - Phase dependent H? emission

13
Profile Analysis V471 Tau
  • Model H? line at eclipse (absorption)
  • -
  • - Star too small! (R20.94R?)

14
Profile Analysis II V471 Tau
  • H? emission Modeling
  • - Fit emission near ?0.25 with 76? spot
  • - Under estimates most phases
  • Co-rotating component near ?0. 5
  • - 180 km/s displaced near quadratures
  • - Similar excess detected by Young et al. (1991)
  • -

15
Other emission sources V471 Tau
  • AB Dor prominences (Donati et al. 1999)
  • - 3-5 stellar radii
  • - persist for several days
  • - co-rotate
  • Spot connection
  • 1992 lack of emission (Rottler et al. 1998)
  • - consistent with activity cycle
  • - supports prominences

16
Conclusion V471 Tau
  • Extended structures likely
  • - Possible mechanism for mass loss ?P
  • Isolate chromo. Fluorescence during quiescence
    (2003?)
  • General profile template
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