White Dwarfs and Cataclysmic · PDF fileOutline •Basic nature of white dwarfs...
Transcript of White Dwarfs and Cataclysmic · PDF fileOutline •Basic nature of white dwarfs...
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WHITE DWARFS AND
CATACLYSMIC
VARIABLESEvan Bray
Astro 550
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Outline
• Basic nature of white dwarfs
• Evolution of white dwarfs and age indicators
• Simple & advanced computational models
• Variable white dwarfs
• Formation and evolution of cataclysmic variables
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Introduction
• White dwarfs are the final evolutionary stage of 97% of
stars
• Populations of white dwarfs give information about their
host systems
• Direct relation between cooling time and age
• Requires solid understanding of evolution
• >10,000 identified today with known 𝑇eff and log 𝑔
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Introduction
• Many white dwarfs are undergoing pulsations
• Possible probes of structure?
• Potential applications have led to renewed interest in full
evolutionary models
• C/O core
• He-rich envelope of ~0.01 M⊙ at most
• H-rich atmosphere of ≤ 10−4 M⊙
• Thin outer layers control radiation
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Introduction
• First discovered in 1914
• Independent test of high densities first done in 1925
• With the method of gravitational redshift on Sirius B
• Concluded ρ ~ 104 𝑔/𝑐𝑚3
• ρ ~ 106 𝑔/𝑐𝑚3
• R ∝ M-α
• Surface gravity ~4 orders or magnitudes higher than solar
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Madej et al. 2004
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Harris et al. 2006
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Classification Schemes
• Similarly to main sequence, named for spectral features
• DA – Strong Balmer lines.
• DO – Strong He II lines.
• DB – Strong He I lines.
• DC – Very cool, few spectral features
• DQ - Molecular/atomic features of carbon
• DAZ, DBZ, DZ – Limited traces of metals
• PG 1159 – hot carbon-rich atmosphere
Te
mp
era
ture
Helium rich
Mixed
Hydrogen rich
Carbon
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Evolution of a DO Dwarf
• Complex evolution between spectral types, as a function of
temperature.
• He II features disappear as He+ recombines into neutral helium
DO DB45,000 K
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Evolution of a DO Dwarf
• Complex evolution between spectral types, as a function of
temperature.
• Fast gravitational settling (<108 years) means He has sunk
to the core
Evan Bray
DO DB30,000 K
DA
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Evolution of a DO Dwarf
• Complex evolution between spectral types, as a function of
temperature.
• Convection begins to mix helium back up in the atmosphere.
• When T = ~11000 K, #DA ≈ #DB
Evan Bray
DO DB
30,000 – 11,000 K
DA DA/DB
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Evolution of a DO Dwarf
• Complex evolution between spectral types, as a function of
temperature.
• Recall: DC -> Very cool, few spectral features
Evan Bray
DO DB5,000 K
DA DA/DB DC
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Evolution of a DO Dwarf
• Complex evolution between spectral types, as a function of
temperature.
• At even cooler temperatures, Carbon gets dredged up from
the core.
• Other feature of cool dwarfs include Ca, Si, Na, Mg, Fe
Evan Bray
DO DB<5,000 K
DA DA/DB DC DQ/DAZ/DBZ/DZ
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Zero Temperature Approximation
• Degenerate electrons => Fermi-Dirac distribution
• Chemical potential ≫ thermal energy
• Luminosity provided by thermal radiation
• In the limit of 𝜌 → ∞,𝑀 → 5.8/𝜇𝑒2
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Improvements to Zero Temperature Model
• Must treat thermal and hydrostatic evolution together
• Thermal energy is not the only source of luminosity
• Dwarf cores are not isothermal
• Chemical composition changes with time
• Lets explore the findings of more advanced modeling
techniques….
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Other Sources of Dwarf Luminosity
• Neutrino radiation
• Main cooling mechanism of young, hot dwarfs
• Gravitational contraction
• Young dwarfs can be 2x larger than the zero temperature radius
• Increases e- Fermi energy, adjusts dwarf structure
• Nuclear fusion
• Small, non-negligible contribution
• Tied to mass-loss history of progenitor in AGB phase
• Crystallization
• Cores of old dwarfs crystallizes, releasing latent heat
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Variable White Dwarfs
• Study of stellar interiors through asteroseismology
• Pulsation frequencies provide information on:• Gravity
• Effective temperature
• Stellar mass
• Rotation profile
• Chemical composition
• Magnetic fields
• Convective zones
• Appear as optical and FUV variations of ≤0.3 magnitudes
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DAVs (ZZ Ceti Stars)
• 10,500 K ≤ T ≤ 12,500 K
• 100 s ≤ P ≤ 1,200 s
• H-rich atmospheres
• Mean 𝑀𝐻
𝑀∗= 5 × 10−7
• Cooler stars contain more frequencies => richer
information
• Computational models study effects of diffusion of
elements at shell boundaries
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DBVs (V777 Her stars)
• T ~ 25,000 K
• 100 s ≤ P ≤ 1,100 s
• He-rich atmosphere
• “Purity” of the instability strip?
• Even the smallest H abundance significantly affects
pulsations
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GW Vir stars (variable PG 1159)
• 20,000 K ≤ T ≤ 35,000 K
• 300 s ≤ P ≤ 3,000 s
• Constrains mixing of layers in AGB
• Higher than usual mass-loss prevents gravitational
settling
• Direct relationship between period and mass
• Very little dependence on exact atmosphere abundances
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Cataclysmic Variable Stars
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Cataclysmic Variable Stars
• Typical rise time of ~1 day, followed by ~10 day decay
• Can increase by 3-5 magnitudes
• Most tend to be very close => little extinction
• Difficult to categorize until advent of UV/X-Ray astronomy
• Presence of either hard/soft portions of X-Ray spectra
• Allows the most detailed observation of accretion physics
• Broken down into Polars and Intermediate Polars
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Example Light Curve
Seward & Charles 2010
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Marsh 2001
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Dwarf Nova Outbursts
• Mass-transfer model
• Variable rate at which mass is transferred from companion
• Don’t observe changes in the bright spot of accretion disk!
• Disc-instability model
• Sudden changes in disk structure
• Accretion disk dumps mass periodically onto dwarf
• Observed as differences in hardness of X-Ray spectra
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Formation of CVs
• Wide binaries form in large star-forming
regions
• Higher mass star engulfs smaller star during
the red giant branch
• Exterior envelope lost to conserve angular
momentum
Seward & Charles 2010
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Seward & Charles 2010
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Evolution to Short Periods
• “Magnetic braking” causes orbital period to slowly
decrease
• At P ~ 3 hours, this mechanism shuts off
• Interference by dwarf magnetosphere?
• Donor star shrinks => mass transfer stops
• Gravitational radiation begins to dominate
• Mass transfer picks up again at P ~ 2 hours
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Polars (AM Her systems)
• Strong magnetic fields
• 𝑃𝑟𝑜𝑡 = 𝑃𝑜𝑟𝑏
• First detected by Uhuru
• Accretion stream threaded onto magnetic field
• Emits hard/soft X-Rays at shock front, and cyclotron
radiation
• Emissions highly dependent on viewing angle!
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Seward & Charles 2010
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Intermediate Polars
• Slightly weaker magnetic fields
• 𝑃𝑟𝑜𝑡 > 𝑃𝑜𝑟𝑏• 30 s < 𝑃𝑟𝑜𝑡 < 1 hour
• Disk forms, matter threads onto magnetic field at small R
• Creates “curtain” around central dwarf
• Accretion happens over larger surface area
• => Fewer soft X-Rays
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Watson 1985
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Summary
• White dwarfs are reliable cosmic clocks and high density
laboratories
• Simple structures and evolutions
• Provides info about star-formation history and AGB evolution
• Pulsations make wonderful probes of stellar interior
• CVs are interacting binaries with many similarities to other
astrophysical objects
• Far more numerous than higher mass X-Ray binaries
• Accretion disk physics can be applied to far more energetic systems