constraining close binaries evolution with sdss/segue: a representative sample of white dwarf/main...
TRANSCRIPT
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Constraining close binaries evolution with SDSS/SEGUE:a representative sample of white dwarf/main sequence
binaries
Matthias Schreiber
ESO, May 4th, 2006
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The questions in compact binary evolution are…
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… the questions that everyone of us has
Where do I come from?
How much time have I left?
Where will I go to?
And what am I supposed to do here?
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Motivation
Understanding the formation and evolution of close binaries:
• Supernova Ia
• Binary millisecond pulsars
• Galactic black hole candidates
• Short gamma-ray bursts
• Catalysmic Variables
• Part of stellar evolution
• …
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The evolution into close binaries
Parameter: “CE-efficiency” “binding energy parameter”
How strong is AML due to magnetic braking?
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Example: Our non-understanding of the evolution of CVs
Ritter & Kolb (2003) V7.3: 531 systems
Porb is typically the best determined parameter of a CV
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Flashback – 1983: Disrupted magnetic braking
Paczynski & Sienkiewicz; Spruit & Ritter; Rappaport et al. (1983)
Two angular momentum loss mechanisms:
magnetic wind braking & gravitational radiation
MWB+GR GR
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Predictions of the standard CV evolution model
- Lack of CVs in the 2-3h Porb range
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The period gap
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The standard model: Predictions
- Minimum orbital period at ~65min
- Paucity of CVs in the 2-3h Porb range
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Period bouncing
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The orbital period minimum
80 min!
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The standard model: Predictions
- Minimum orbital period at ~65min X
- Paucity of CVs in the 2-3h Porb range
- Pile-up at Pmin
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Population syntheses: The period minumum
Kolb & Baraffe (1999)
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The orbital period minimum
80 min!
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The standard model: Predictions
- Minimum orbital period at ~65min X
- Paucity of CVs in the 2-3h Porb range
- 99% of all CVs have Porb<2h
- Pile-up at Pmin X
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The orbital period distribution
207=39%250=51%
55=10%
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The standard model: Predictions
- Minimum orbital period at ~65min X
- Paucity of CVs in the 2-3h Porb range
- 99% of all CVs have Porb<2h X
- CV space density ~
Observed ~ X
- Pile-up at Pmin X
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Additions to the standard model (incomplete)
• The binary age postulate (Schenker & King 2002)
• Hibernation (Shara et al. 1986)
• Alternative angular momentum loss rates (e.g. Andronov et al. 2003, Taam et al. 2003)
Large number of detached white dwarf/red dwarf binaries
Too low accretion rates (Andronov), circumbinary discs (Taam)
Large number of detached white dwarf/red dwarf binaries
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… what else can we do?
• Overcome observational biases and provide a statistically representative sample of close binaries to constrain the theories of CE-evolution and magnetic braking.
• Detached white dwarf/main sequence binaries are the best class of systems for this task because they are:
• intrinsically numerous
• clean (no accretion)
• accessible with 2-8m telescopes
• well understood
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Members of the WD/MS population
- long orbital period systems i.e. WD/MS that will never interact
- pre-CVs i.e. PCEBs which will become a CV in less than a Hubble-time
- Post-common envelope binaries (PCEBs) i.e. WD/MS which
went through a CE-phase
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Constraining CE-evolution with WD/MS binaries
Two algorithms to determine the final separation are proposed:
1. Energy conservation (Paczynski 1976)
2. Angular momentum conservation (Nelemans & Tout 2005)
Reconstructing the CE-phase for a representative sample will tell us if one algorithm works!!
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How large is the gap?
- A large gap in the WD/MS distribution will indicate a low efficiency of using the binary energy (angular momentum)to expel the envelope.
- No gap will indicate that the CE-phase is very efficient inremoving the giants envelope.
(Willems & Kolb 2004)
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Is magnetic braking disrupted?
PCEBs can tell us:
Politano & Weiler (2006)
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The age of WD/MS systems
(Schreiber & Gänsicke 2003)
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The evolution of close WD/MS systems
Twd (age), Porb PCE, PCV, timescaleAML
(Schreiber & Gänsicke 2003)
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The contact orbital periods
(Schreiber & Gänsicke 2003)
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Selection effects in the pre-SDSS sample
(Schreiber & Gänsicke 2003)
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PG: U-B<-0.46
Selection effects in the pre-SDSS sample
(Schreiber & Gänsicke 2003)- Extremely biased sample: hot white dwarfs = young systems (t<108yr) low mass companions = will start mass transfer at Porb<4h
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WD/MS systems in SDSS I and SEGUE
• Stars (white dwarfs, main sequence)
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WD/MS systems in SDSS I and SEGUE
• Stars (white dwarfs, main sequence)• Quasars
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WD/MS systems in SDSS I and SEGUE
• Stars (white dwarfs, main sequence)• Quasars• WD/MS from SDSS I
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WD/MS systems in SDSS I and SEGUE
• Stars (white dwarfs, main sequence)• Quasars• WD/MS from SDSS I• Model WD (8-40kK) + MS (K0-M8)
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WD/MS systems in SDSS I and SEGUE
• Stars (white dwarfs, main sequence)• Quasars• WD/MS from SDSS I• Model WD (8-40kK) + MS (K0-M8)• SDSSII / SEGUE WD/MS candidates
(4 fibers per field)
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SEGUE WD/MS spectra
Immediate objectives:
• Space density
• Fraction of magnetic systems
• Age of the population
• Evolutionary time scale
Current success rate is ~70%: number one in SEGUE!!!
Vision: Follow-up observations of the entire sample to constrain the CE-phase and magnetic braking
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Status of follow-up observations
- Calar Alto 3.5 (first pilot study, performed)
- Calar-Alto DDT (first orbital period, performed)
- WHT (6 nights July 2006, received)
- Calar-Alto Large Program (proposed 03.2006)
- ESO (pilot –study, proposed 03.2006)
- ESO (Large program, planed 09.2006)
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CA-observations Feb. 2006
In agreement with BPS predictions of 15-20%
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CA-Observations, March 2006
A 10 hrs orbital period PCEB:
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Conclusions
- A representative sample of WD/MS binaries will allow to significantly progress with our understanding of close binary evolution:
- constrain the CE-phase- estimate the strength of magnetic braking- test the disrupted magnetic braking hypothesis
- The pre-SDSS sample and the systems identified in SDSS I are strongly biased.
- We run a very successful SEGUE project and will identify the required representative sample until 2008
- First follow-up observations give promising results!!
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The Collaboration:
PI: Matthias Schreiber (Valparaiso)
Boris Gaensicke (Warwick)
Axel Schwope (Potsdam)
Ada Nebot (Potsdam)
Robert Schwarz (Potsdam)
Alberto (Warwick)
Pablo Rodriguez-Gil (IAC)
Nikolaus Vogt (Valparaiso)
Mission Members: