Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf ·...
Transcript of Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf ·...
![Page 1: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/1.jpg)
Perspective for Determining Surface Abundances and Physical Parameters
of Metal-Rich Stars
Yoichi Takeda(National Astronomical Observatory of Japan)
“The Metal-Rich Universe,” 2006 June 12-16 Los Cancajos, La Palma, Canary Island, Spain
![Page 2: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/2.jpg)
Derivation of Stellar Physical Parameters
colors/spectraatmospheric parameters (Teff, log g, microturbulence, metallicity ([Fe/H]), elemental abundances (ε)
[model atmosphere theory, line-formation theory]SED modeling, spectrum modeling
photometric magnitudeparallax (e.g.Hipparcos) L (bolometric luminosity)
[stellar evolution theory]modeling of stellar interior/envelope and its time variation
age, mass, radius, …
bolometric correction
Reliable Modeling is Essential…
![Page 3: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/3.jpg)
1. Determination of Stellar Atmospheric Parameters of
Metal-Rich Stars
Various determination methods for stellar atmospheric parameters, with emphasis on thespectroscopic approachNon-LTE overionization: theoretical expectation and observational suggestionHow is the assumption of LTE reliable?Check on the fiducial standard: Hyades stars
![Page 4: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/4.jpg)
Various method for atmospheric Parameters• Teff (effective temperature)
– color (b-y, B-V, V-K)– Balmer line profile– excitation equilibrium (χ-independence of A: mostly Fe I)– line-depth ratio
• log g (surface gravity)– directly from M & R (estimated from evolutionary track)– ionization equilibrium [requirement of A(Fe I) = A(Fe II)]– wing-fitting of strong lines
• Microturblence (vt)– curve-of-growth matching (EW-independence of A:
mostly Fe I)
Spectroscopic Method is useful: all can be done based only on Fe I and Fe II lines measured from spectrum at hand
![Page 5: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/5.jpg)
One concern for determination of Teff , log g, vt, & [Fe/H] via spectroscopic method
• Is (usually assumed) LTE valid for the line formation (especially for Fe I and Fe II)?
• Several recent studies report a possibility of significant departure from LTE Saha ionization equilibrium for late-type dwarfs, especially at Teff < 5000 K
• If this is real, appreciable errors in the resulting solutions may be expected …
Can we ever still rely on LTE? How much errors would be expected with this assumption?
![Page 6: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/6.jpg)
Overionization: Imbalance of photo-ionization/-recombination at τ<1
Photo-ionization / recombination balance
b~R*/R ~ ∫(αB/hν)dν/ ∫(αJ/hν)dν
calculated for
(Teff = 5500 K, log g = 4.0) models of different [M/H]
Important factor affecting the UV photoionizing radiaton is “accumulating opacities due to numerous lines” treated with LTE pure absorption in most cases
With this assumption, lines act to thermalize the radiation field, NLTE overionization tends to become less significant at higher metallicity
![Page 7: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/7.jpg)
Another factor determining the nature of overionization effect: Fraction of Fe I and Fe II in stellar atmospheres
“Trace” species is generally more affected by changes in the equilibrium condition
When Fe I 》 Fe II(e.g., K-M dwarfs), Fe I lines: robust FeII lines:strengthened
When Fe I 《 Fe II(e.g., F-G dwarfs), Fe I lines: weakened Fe II lines: robust
Note: The nature of high-excitation Fe I lines may conform to that of Fe II lines
![Page 8: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/8.jpg)
The problem is “to which extent should we count for the non-LTE correction?”
Thevenin & Idiart(1999)
Non-LTE overionization has generally been considered as significant only for metal-poor stars, while LTE was regarded as comparatively much safer for metal-rich stars
However, Shuchukina et al.’s recent NLTE calculation (see the poster in this conference) suggests appreciable NLTE overionization corrections of ~0.2 dex for Fe I or Ti I lines even for G-K dwarfs of [Fe/H] >0
Inevitable uncertainties in NLTE calculations are collision crosssection(especially due to H I) and treatment of photoionizing UV radiation field
Validity/consistency should be checked by comparing the observations
![Page 9: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/9.jpg)
Comparison of spectroscopic parameters with those from other methods (Takeda et al. 2005)
No serious discrepancy appears to exist …
160 Late-F to early-K stars at -0.7 < [Fe/H] < +0.4
Based on solar gf values [assuming A(FeI)=A(FeII) for the Sun]
![Page 10: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/10.jpg)
Errors in spectroscopically established parameters?
Melendez & Ramirez (2005)
For metal-rich G and late-F dwarfs
Not so in Teff…
But appreciable underestimation in log g?
Use of experimental or theoretical gf values
![Page 11: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/11.jpg)
Teff-Dependent Anomalous Ionization in Fe-group elements (Ti, V, Co)?
Bodhagee et al. (2003) Gilli et al. (2006)
Use of lines of neutral elements (except for Sc)
Differential analysis relative to the Sun
Co
Co V
V
TiTi
Mn
Mn CaCa
![Page 12: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/12.jpg)
However, our [X/Fe] vs. Teff relations could not confirm such an apparent trend
Ti
V
Ca
Mn
Co
Similar differential analysis relative to the Sun
Takeda (2006)
160 Late-F to early-K stars at -0.7< [Fe/H]< +0.4
No significant trend appears to exist …
![Page 13: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/13.jpg)
Actually, [X I/H] – [X II/H] scatters around zero (with almost no significant trend with Teff )
These results suggest that departure from LTE ionization equilibrium (if any exists) is not significant in a practical sense, at least in the Teffrange between 5000 K and 7000 K
Takeda (2006)
Hence, the situation is rather confusing in view of the diversity of results obtained by different groups…
![Page 14: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/14.jpg)
A good touchstone: Hyades cluster
“True” stellar parameters are considered to be well established thanks to Hipparcos parallaxes and comparison with theoretical isochrones
De Bruijne et al. (2001)
![Page 15: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/15.jpg)
Yong et al.’s (2004) results for Hyades G-K dwarfs (4000K < Teff< 6200K)
Teff: B-V and b-y colors
log g: from (Hipparcos L, Teff) with help of theoretical isochrones
vt: EW-independence of Fe I abundances
Appreciable discrepancy [A(FeI) < A(FeII)] at Teff < 5000K conspicuously increasing with a decrease in Teff
At 5000K < Teff, the difference is moderate & constant at 0.1-0.2 dex
Especially, Fe II lines can not be used with LTE any more at 5000K < Teff
![Page 16: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/16.jpg)
This was confirmed by recent Schuler et al.’s (2006)analysis for Hyades G-K dwarfs/giants
However, the growth of discrepancy appears to be rather monotonic (becoming appreciable already at Teff ~5500K)
Fe II lines yield overestimated [Fe/H]
Giants are less problematic
(Again, they derived Teff from colors and log g from isochrones)
![Page 17: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/17.jpg)
Activity-related non-LTE effect?Schuler et al. (2003)
O I 7773 triplet strength (quite sensitive to chromospherictemperature rise) remarkably increases with a lowering of Teff at Teff < 5000K
OH
O I 7773
[O I] 6300
Stellar activity may be the key to understanding the anomalous strength of O I 7773 (strengthened by T-rise) and FeII lines (strengthened by overionization) in K dwarfs
Departure is more pronounced and starts
earlier at ~5500 K
M34 (t~200Myr: youngerthan 700Myr of Hyades)
M34
If this speculation is correct, such an anomalous effect would be less significant in K dwarfs in old open clusters (e,g., M67)
![Page 18: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/18.jpg)
If K dwarfs (Teff<5000K) unreliable, what about G stars?--Our analyses of Hyades G stars based on OAO data--
Study of atmospheric parameters and Fe abundances for Hyades dwarfs at 5000K < Teff < 6000K (use of 6000-7200A data) by two approaches:
1. Use of model atmospheres constructed with “actual” Teff and log g (de Bruijne et al.) and compare the resulting A(FeI) and A(FeII)
2. All atmospheric parameters are spectroscopically determined by using FeI and Fe II lines, and compared with “actual” parameters
Adoption of solar gf values derived on the assumption of A◎(FeI) = A◎(FeII) = 7.5
![Page 19: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/19.jpg)
Results with “actual” Teff and log g of de Bruijne et al.
1. Qualitatively, there is surely a tendency of A(FeI) < A(FeII) as Yong et al. (2004) or Schuler et al. (2006) reported
2. But the typical difference is only <~0.1 dex and not very significant
3. Also, we can not observe any clear tendency of progressively increasing FeI-FeII discrepancytoward lower Teff
![Page 20: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/20.jpg)
Spectroscopic Determination of Teff, log g, and vt
◎EW-independence of A(FeI) ◎χ-independence of A(FeI)
Hyades
G-K dwarfs
◎<A(FeI)> = <A(FeII)>
![Page 21: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/21.jpg)
Differences between “actual” parameters and “spectroscopic” parameters
T(spec) tends to be higher than T(true) by ~0-200K
Difference between log g(spec) and log g(true) are within about ±0.2-0.3dex
Correlation between ΔT and Δlog g
Resulting abundances are consistent within <0.1dex
If content with this precision, why not invoke LTE?
![Page 22: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/22.jpg)
Toward Ultimate Precision: Complete Differential Analysis
• A useful LTE-based method for high-precision differential abundance determination applicable to two similar (i.e., not very different) stars
• Formulated only by using differential parameter values (ΔTeff, Δlog g, Δvt, ΔAi) between two stars in the sense that the solutions of these (ΔTeff, Δlogg, Δvt) are solved with the requirements of – χ-independence of ΔAi– Requirement of ΔA(Fe I) = ΔA(Fe II)– EW-independence of ΔAi
• Errors in modeling (breakdown of LTE, 3D effect, etc.) are cancelled and sufficiently high precision of differential abundances is attained (even down to the order of ~0.01dex)(e.g., Laws & Gonzalez 2001, Takeda 2005, Melendez et al. 2006)
![Page 23: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/23.jpg)
Application of complete differential technique to Sun-like G dwarfs of Hyades (|ΔTeff| < 250 K) relative to the Sun
Average of results for 16 stars:
[Fe/H] = +0.19 (σ=0.05)
Maybe intrinsic scatter within the cluster
![Page 24: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/24.jpg)
Literature [Fe/H] of Hyades
our results
0.19 (±0.05)
Conventional definition of SMR stars ([Fe/H]SMR > 0.2) is just reasonable, which originally stemmed from [Fe/H]SMR > [Fe/H]Hyades
![Page 25: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/25.jpg)
[Fe/H] of four Hyades giants and μLeo
Taken from Taylor’s (2001) table
γTau: [Fe/H] = +0.19
(4949K, 2.63, 1.36km/s)
δ1 Tau: [Fe/H] = +0.15
(4895K, 2.60, 1.32km/s)
εTau: [Fe/H] = +0.10
(4811K, 2.39, 1.52km/s)
θ1 Tau: [Fe/H] = +0.13
(4930K, 2.65, 1.33km/s)
μ Leo: [Fe/H] = +0.34
(4521K, 2.53, 1.36km/s)
μ Leo
Hyades giants Based on our spectroscopically determined parameters using Fe I and Fe II lines
![Page 26: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/26.jpg)
2. Zero-Point Problem of [X/H]
[X/H] ≡ AX(☆) – AX(◎)Impact of 3D inhomogeneous atmosphere effect on the solar CNO abundancesThe discrepancy between Sun and early-type stars is removed?What are the metallicities of early-type stars
![Page 27: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/27.jpg)
3D modeling of inhomogeneous stellar atmosphere
Asplund (2005)Metal-poor case (lowering of average <T(τ)> compared to 1D)
Metal-rich case (<T(τ)> is almost the same as 1D)
![Page 28: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/28.jpg)
Important 3D impact: suggestion of downward revision of solar CNO abundances
By about ~0.2 dex lowered compared to what has been believed
Asplund et al. (2006)
![Page 29: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/29.jpg)
Bewilderment of Solar Physicists• Such a downward revision of solar CNO by ~0.2 dex has
embarrassed solar astronomers, because the current standard solar model (which well explains observations of solar seismology or solar neutrinos) will be invalidated
• One possibility to maintain consistency even in the reductionof CNO is to keep the solar Ne-to-O ratio substantially higher(ANe/AO ~ 0.5) than the currently believed value (ANe/AO ~0.15) (Antia, Basu 2005; Bahcall et al. 2005)
• Active region X-ray data were analyzed to determine the ANe/AO ratio, but the results are rather confusing: while the confirmation of high scale (0.4) was once claimed for nearby solar-type stars (Drake, Testa 2005), successive studies for the Sun yielded essentially the standard low-scale ANe/AOratio of 0.15 (Schmelz et al. 2005; Young et al. 2005)
This problem seems still unsettled …
![Page 30: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/30.jpg)
Anyway, this revision may solve the well-known CNO-discrepancy between Sun and young early-type stars
CNO in early B main-sequence stars Gies&Lambert (1992) and Kilian (1992)
Takeda & Hidai (1998)
Takeda & Honda (2005)
According to Asplund et al. (2004), the 3D correction for solar O I 6156-8 (χ= 10.7 eV) is appreciably large to be Δ= -0.15, in contrast to other high-excitation O I lines (|Δ|≦0.05,O I 7771-5, O I 8446, O I 9266), which may explain the discrepancy
Why such large variation of 3D correction among similar high-excitation O I lines?
![Page 31: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/31.jpg)
However, subsolar in hot stars is not only CNO, but metallicity in general ?
Sadakane (1990)
Superficially normal late-B & A starsNiemczura’s (2003) study of B stars metallicity based on IUE spectra
![Page 32: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/32.jpg)
While some other observations suggest near-solar metallicity of B stars
Gies and Lambert (1992)
Lyubimkov (2005)
[Mg/H] from Mg II 4481
Much more work on the metallicity ([Fe/H) of early-type stars (current composition of galactic gas) is needed, in comparison with the solar abundances
![Page 33: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/33.jpg)
3. Effect of Physical Processes or Parameters on Stellar Evolutionary
Tracks of Metal-Rich Stars
Influence of solar CNO downward revisionEffect of envelope pollution due to accretionHow is the age estimation affected?
![Page 34: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/34.jpg)
Influence of downward revision of solar CNO on evolutionary tracks
Suda (2006, private communication)
•Reduction of CNO brings increase of radius and lowering of Teff (shifting the track to the right)
•This effect becomes more appreciable for metal-rich tracks
![Page 35: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/35.jpg)
Involvement of pollution with surface enrichment ?... may promising as planet-host stars are metal-rich, but a matter of debate
• The extent of overabundance Teff-dependent? (expected from the change of convection zone thickness)– No such tendency is observed (Pinsonneault et al. 2001, Santos et al.
2004, Cody, Sasselov 2005)– However, this might be circumvented by extra mixing process of
thermohaline convection in the presence of metallicity difference (Vauclair 2004)
• Difference in the enrichment degree between volatile and refractory elements?– Various reports so far, but recent studies suggest such a difference is
absent (e.g., Ecuivillon e al. 2005)• Abundance difference exists between components of
visual binaries?– Various reports so far, but no clear evidence has yet been established
(e.g., Desidera 2004)• Other sign of surface polution?
– Detection of Li6 isotope (HD 82943) may be counted as evidence that such process does take place (Isaraelian et al. 2003)
![Page 36: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/36.jpg)
Effect of accreted matter on stars
Cody & Sasselov (2005)
Deepening of SCZ Increase of Radius Lowering of Teff
(Δz = +0.01 in the outer envelope) (Δz = 0.00, +0.005, +0.01, +0.015)
![Page 37: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/37.jpg)
Evolution Track of Surface-Polluted Star
1.0 Msun
0.8 Msun
Z = 0.02Z = 0.04
Z = 0.02
Z = 0.03
z = 0.02 at interior z = 0.04 at SCZ
z = 0.02 at interior z = 0.03 at SCZ
If polluted track and standard homogeneous track with the same surface (enriched) metallicity (e.g., z=0.04) are compared with each other, the formersituates on the bluer side to the latter
Katsuta & Fujimoto (2006)
![Page 38: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/38.jpg)
Do subdwarf-like metal-rich stars exist?
•Such a superficially metal-rich star caused by pollution would situate below (leftward) of the corresponding theoretical isochrones
•And thus its age is impossible to be determined with standard stellar evolutionary tracks
•If we could detect such a “subdwarf-like” metal-rich star, it would be a promising candidate for a pollution-enriched object
Schematic diagram
![Page 39: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/39.jpg)
Positions of Metal-Rich F-G Stars
Red: planet-host starsBlue: non-planet-host stars
• Many metal-rich main-sequence stars appear to reasonably match the standard theoretical main-sequence
•Yet, a few “subdwarf-like” metal-rich stars candidates are seen, though they are all non-planet-host stars
•Anyway, surface abundance trend of these peculiar stars may be worth detailed reexamination
Pollution may take place, but unlikely to be the major cause of metal-enrichment
![Page 40: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/40.jpg)
Age Estimation with the Surface Polluted Model
6.5 Gyr → 9.6 Gyr
Case of HD 80606b (assumed as a surface-polluted star)
![Page 41: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/41.jpg)
Influence on the Age-Metallicity RelationCan the mistery of old metal-rich stars be explained?
Surface-polluted star evolution model suggests that the true age of superficially SMR star may be olderthan that obtained from standard homogeneous model
If an SMR stars is a pollution-enriched star, its age and metallicitywould be corrected in this direction
If the correction were in this direction, we could have reasonablly made it match the theoretical relation…
This might be realized by changing α(mixing length) and/or Y(Hecomposition), according to Katsuta & Fujimoto (2006) Age
[Fe/H]
![Page 42: Perspective for Determining Surface Abundances and ...takedayi/HDS_seminar/pub/hds061221.pdf · Perspective for Determining Surface Abundances and Physical Parameters of Metal-Rich](https://reader033.fdocuments.us/reader033/viewer/2022042006/5e700df599ee0d262b5b361d/html5/thumbnails/42.jpg)
Summary• Spectroscopic parameters of F-G-K stars with FeI/FeII lines
– For F-G stars with Teff higher than 5000K and K giants, the non-LTE effect is not so significant in spite of a marginal sign of overionization and LTE would still remain as a practically useful approximation.
– Meanwhile, LTE had better be avoided for K dwarfs with Teff<5000K because classical modeling is likely to break down (activity-related?) .
• Zero-point of [Fe/H]: Sun/hot-star connection– While recent downward revision of solar CNO based on 3D atmosphere
may resolve the discrepancy between Sun and early-type stars, it is still premature to regard it as being established.
– Attention should also be paid to the possibility of subsolar metallicity([Fe/H]) of hot stars.
• Effect of surface pollution on stellar evolution– A pullution-enriched star would appear as a "subdwarf-like" metal-rich
star locating lower-right of the standard (metal-rich) main sequence, though such candidates appear to be rather unusual (if any exists).
– The age of a polluted (supeficially) metal-rich star derived from standard metal-rich tracks would be underestimated