DEEP MIXING IN EVOLVED STARS. I. THE EFFECT OF REACTION RATE REVISIONS FROM C TO Al

We present computations of nucleosynthesis in low-mass (LM) red giant branch (RGB) and asymptotic giant branch (AGB) stars of Population I experiencing extended mixing. We adopt the updated version of the FRANEC evolutionary model, a new post-process code for non-convective mixing and the most recent revisions for solar abundances. In this framework, we discuss the effects of recent improvements in relevant reaction rates for proton captures on intermediate-mass (IM) nuclei (from carbon to aluminum). For each nucleus, we briefly discuss the new choices and their motivations. The calculations are then performed on the basis of a parameterized circulation, where the effects of the new nuclear inputs are best compared to previous works. We find that the new rates (and notably the one for the 14N(p, γ)15O reaction) imply considerable modifications in the composition of post-main-sequence stars. In particular, the slight temperature changes due to the reduced efficiency of proton captures on 14N induce abundance variations at the first dredge-up (especially for 17O, whose equilibrium ratio to 16O is very sensitive to the temperature). In this new scenario, presolar oxide grains of AGB origin turn out to be produced almost exclusively by very low mass stars (M ⩽ 1.5–1.7 M☉), never becoming C-rich. The whole population of grains with 18O/16O below 0.0015 (the limit permitted by first dredge-up) is now explained. Also, there is now no forbidden area for very low values of 17O/16O (below 0.0005), contrary to previous findings. A rather shallow type of transport seems to be sufficient for the CNO changes in RGB stages. Both thermohaline diffusion and magnetic-buoyancy-induced mixing might provide a suitable physical mechanism for this. Thermohaline mixing is in any case certainly inadequate to account for the production of 26Al on the AGB. Other transport mechanisms must therefore be at play. In general, observational constraints from RGB and AGB stars, as well as from presolar grains, are well reproduced by our approach. The nitrogen isotopic ratio in mainstream SiC grains remains an exception. For the low values measured in them (i.e., for 14N/15N ⩽2000), we have no explanation. Actually, for the several grains with subsolar nitrogen isotopic ratios, no known stellar process acting in LM stars can provide a clue. This might be an evidence that some form of contamination from cosmic ray spallation occurs in the interstellar medium, adding fresh 15N to the grains.

[1]  B. Kämpfer,et al.  Photonuclear and radiative-capture reaction rates for nuclear astrophysics and transmutation:$^{92–100}$Mo,$^{88}$Sr,$^{90}$Zr, and $^{139}$La , 2011 .

[2]  Charles W. Smith,et al.  INTERPLANETARY MAGNETIC FLUX DEPLETION DURING PROTRACTED SOLAR MINIMA , 2011 .

[3]  W. Merryfield,et al.  THERMOHALINE MIXING: DOES IT REALLY GOVERN THE ATMOSPHERIC CHEMICAL COMPOSITION OF LOW-MASS RED GIANTS? , 2010, 1011.2191.

[4]  M. Wiescher,et al.  Astrophysical S factors for fusion reactions involving C, O, Ne, and Mg isotopes , 2010 .

[5]  P. Denissenkov NUMERICAL SIMULATIONS OF THERMOHALINE CONVECTION: IMPLICATIONS FOR EXTRA-MIXING IN LOW-MASS RGB STARS , 2010, 1006.5481.

[6]  C. Charbonnel,et al.  Thermohaline instability and rotation-induced mixing I. Low- and intermediate-mass solar metallicity stars up to the end of the AGB , 2010, 1006.5359.

[7]  N. Langer,et al.  Thermohaline mixing in evolved low-mass stars , 2010, 1006.1354.

[8]  K. Cunha,et al.  FLUORINE ABUNDANCES IN GALACTIC ASYMPTOTIC GIANT BRANCH STARS , 2010 .

[9]  R. Gratton,et al.  Chemical composition of clump stars in the open cluster NGC 6134 , 2010, 1005.3944.

[10]  S. Cristallo,et al.  ON THE NEED FOR DEEP-MIXING IN ASYMPTOTIC GIANT BRANCH STARS OF LOW MASS , 2010, 1005.3549.

[11]  R. Longland,et al.  Charged-particle thermonuclear reaction rates: II. Tables and graphs of reaction rates and probability density functions , 2010, 1004.4517.

[12]  A. Weiss,et al.  ON USING THE COLOR–MAGNITUDE DIAGRAM MORPHOLOGY OF M67 TO TEST SOLAR ABUNDANCES , 2010, 1004.3308.

[13]  E. Friel,et al.  ABUNDANCES OF RED GIANTS IN OLD OPEN CLUSTERS. V. Be 31, Be 32, Be 39, M 67, NGC 188, AND NGC 1193 , 2010 .

[14]  Roberto Gallino,et al.  THE WEAK s-PROCESS IN MASSIVE STARS AND ITS DEPENDENCE ON THE NEUTRON CAPTURE CROSS SECTIONS , 2010 .

[15]  E. Rossetti,et al.  Chemical abundance analysis of the open clusters Cr 110, NGC 2099 (M 37), NGC 2420, NGC 7789, and M 67 (NGC 2682) , 2009, 0910.0723.

[16]  M. Asplund,et al.  The chemical composition of the Sun , 2009, 0909.0948.

[17]  M. Busso,et al.  Extra-Mixing in Luminous Cool Red Giants: Hints from Evolved Stars With and Without Li , 2009, Publications of the Astronomical Society of Australia.

[18]  M. Busso,et al.  Nucleosynthesis of Light-Element Isotopes in Evolved Stars Experiencing Extended Mixing , 2009, Publications of the Astronomical Society of Australia.

[19]  F. Käppeler,et al.  Asymptotic-Giant-Branch Models at Very Low Metallicity , 2009, Publications of the Astronomical Society of Australia.

[20]  S. Cristallo,et al.  EVOLUTION, NUCLEOSYNTHESIS, AND YIELDS OF LOW-MASS ASYMPTOTIC GIANT BRANCH STARS AT DIFFERENT METALLICITIES , 2009, 1109.1176.

[21]  M. Pinsonneault,et al.  MAGNETO-THERMOHALINE MIXING IN RED GIANTS , 2008, 0806.4346.

[22]  W. Trzaska,et al.  A NOVEL APPROACH TO MEASURE THE CROSS SECTION OF THE 18O(p, α)15N RESONANT REACTION IN THE 0–200 keV ENERGY RANGE , 2009 .

[23]  N. Mowlavi,et al.  CNONa and 12 C/ 13 C in giant stars of 10 open clusters ⋆ , 2008, 0810.1701.

[24]  C. Sneden,et al.  Neutron-Capture Elements in the Early Galaxy , 2008 .

[25]  J. Meléndez,et al.  THE RISE OF THE AGB IN THE GALACTIC HALO: Mg ISOTOPIC RATIOS AND HIGH PRECISION ELEMENTAL ABUNDANCES IN M71 GIANTS , 2008, 0905.1872.

[26]  M. Busso,et al.  Infrared Photometry and Evolution of Mass-Losing AGB Stars. II. Luminosity and Colors of MS and S Stars , 2008, 0806.4591.

[27]  Caltech,et al.  Magnetic Mixing in Red Giant and Asymptotic Giant Branch Stars , 2008, 0806.3933.

[28]  P. Hoppe,et al.  Aluminum-, Calcium- and Titanium-rich Oxide Stardust in Ordinary Chondrite Meteorites , 2008, 0804.2866.

[29]  P. Mohr,et al.  New reaction rate for O-16(p, gamma)F-17 and its influence on the oxygen isotopic ratios in massive AGB stars , 2008, 0803.2757.

[30]  G. Rapisarda,et al.  Indirect measurement of the 18O(p, α)15N reaction rate through the THM , 2008 .

[31]  G. Wasserburg,et al.  Can Extra Mixing in RGB and AGB Stars Be Attributed to Magnetic Mechanisms? , 2007, 0708.2949.

[32]  S. Cristallo,et al.  Molecular Opacities for Low-Mass Metal-poor AGB Stars Undergoing the Third Dredge-up , 2007, 0706.2100.

[33]  J. Lattanzio,et al.  Compulsory Deep Mixing of 3He and CNO Isotopes in the Envelopes of Low-Mass Red Giants , 2007, 0706.2710.

[34]  C. Zahn Thermohaline mixing: a physical mechanism governing the photospheric composition of low-mass giants , 2007, astro-ph/0703302.

[35]  L. Corcione,et al.  Mid-Infrared Photometry of Mass-losing Asymptotic Giant Branch Stars , 2007, astro-ph/0701501.

[36]  J. Lattanzio,et al.  Deep Mixing of 3He: Reconciling Big Bang and Stellar Nucleosynthesis , 2006, Science.

[37]  L. Nittler,et al.  Silicon and Carbon Isotopic Ratios in AGB Stars: SiC Grain Data, Models, and the Galactic Evolution of the Si Isotopes , 2006 .

[38]  C. Charbonnel,et al.  Rotational mixing in low-mass stars: II. Self-consistent models of Pop II RGB stars , 2006, astro-ph/0602389.

[39]  F. Terrasi,et al.  First measurement of the 14N(p,γ)15O cross section down to 70 keV , 2006, nucl-ex/0602012.

[40]  L. Pasquini,et al.  Element abundances of unevolved stars in the open cluster M 67 , 2006, astro-ph/0601239.

[41]  C. Thum,et al.  Full polarization study of SiO masers at 86 GHz , 2006, astro-ph/0601098.

[42]  S. Cristallo,et al.  s process in low-mass asymptotic giant branch stars , 2005, astro-ph/0501405.

[43]  Roma,et al.  Infrared photometry and evolution of mass-losing AGB stars - I. Carbon stars revisited , 2005, astro-ph/0509739.

[44]  G. Meynet,et al.  Stellar evolution with rotation and magnetic fields - IV. The solar rotation profile , 2005, astro-ph/0508455.

[45]  F. Herwig Evolution of Asymptotic Giant Branch Stars , 2005 .

[46]  Jennifer A. Johnson,et al.  Abundances in giant stars of the globular cluster NGC 6752 , 2005, astro-ph/0504283.

[47]  M. Pinsonneault,et al.  Abundance Anomalies and Rotational Evolution of Low-Mass Red Giants: A Maximal Mixing Approach , 2004, astro-ph/0412488.

[48]  T. Owen,et al.  Search for spatial variation in the jovian 15N/14N ratio from Cassini/CIRS observations , 2004 .

[49]  J. Richer,et al.  Implications of WMAP Observations on Li Abundance and Stellar Evolution Models , 2004, astro-ph/0409672.

[50]  Y. Pavlenko,et al.  First detection of a lithium rich carbon star in the Draco dwarf galaxy: Evidence for a young stellar population , 2004, astro-ph/0405305.

[51]  M. Gaffey THE EARLY SOLAR SYSTEM , 1997, Origins of life and evolution of the biosphere.

[52]  Hans Van Winckel,et al.  Post-AGB Stars , 2003 .

[53]  S. Cristallo,et al.  Low-Mass AGB Stellar Models for 0.003 ≤ Z ≤ 0.02: Basic Formulae for Nucleosynthesis Calculations , 2003, Publications of the Astronomical Society of Australia.

[54]  K. Lodders Solar System Abundances and Condensation Temperatures of the Elements , 2003 .

[55]  C. Tout,et al.  Partial mixing and formation of the 13C pocket by internal gravity waves in asymptotic giant branch stars , 2003 .

[56]  C. Sneden,et al.  Carbon Isotope Ratios for Giants in Globular Cluster M3: The Unique Lithium-Rich Giant IV-101 , 2003 .

[57]  G. Wasserburg,et al.  Short-Lived Nuclei in the Early Solar System: A Low Mass Stellar Source? , 1999, Publications of the Astronomical Society of Australia.

[58]  J. Lattanzio,et al.  s-Process Nucleosynthesis in Asymptotic Giant Branch Stars: A Test for Stellar Evolution , 2002, astro-ph/0212364.

[59]  G. Wasserburg,et al.  Cool Bottom Processes on the Thermally Pulsing Asymptotic Giant Branch and the Isotopic Composition of Circumstellar Dust Grains , 2002, astro-ph/0211271.

[60]  F. Grundahl,et al.  The ages of the globular clusters M$\,$71 and 47 Tuc from Strömgren $uvby$ photometry - Evidence for high ages , 2002 .

[61]  P. de Laverny,et al.  s-Process Nucleosynthesis in Carbon Stars , 2002, astro-ph/0207245.

[62]  D. Balser,et al.  The cosmological density of baryons from observations of 3He+ in the Milky Way , 2002, Nature.

[63]  H. Spruit Dynamo action by differential rotation in a stably stratified stellar interior , 2001, astro-ph/0108207.

[64]  Judith G. Cohen,et al.  Abundances in Stars from the Red Giant Branch Tip to Near the Main-Sequence Turnoff in M71. III. Abundance Ratios , 2001, astro-ph/0111572.

[65]  G. Jasniewicz,et al.  VLT observations of turnoff stars in the globular cluster NGC 6397 , 2001, astro-ph/0105166.

[66]  W. J. Thompson,et al.  Proton-induced Thermonuclear Reaction Rates for A = 20–40 Nuclei , 2001 .

[67]  S. Lucatello,et al.  The O-Na and Mg-Al anticorrelations in turn-off and early subgiants in globular clusters , 2000, astro-ph/0012457.

[68]  L. Nittler,et al.  Presolar SiC Grains of Type Y: Origin from Low-Metallicity Asymptotic Giant Branch Stars , 2001 .

[69]  T. Encrenaz,et al.  ISO-SWS Observations of Jupiter: Measurement of the Ammonia Tropospheric Profile and of the 15N/14N Isotopic Ratio , 1999, astro-ph/9911257.

[70]  T. Paradellis,et al.  Cross section and resonance strength measurements of 19F(p, αγ)16O at Ep= 200–800 keV , 2000 .

[71]  G. Wasserburg,et al.  Nucleosynthesis in asymptotic giant branch stars: Relevance for galactic enrichment and solar system formation , 1999 .

[72]  P. Aguer,et al.  A compilation of charged-particle induced thermonuclear reaction rates , 1999 .

[73]  G. Wasserburg,et al.  Presolar corundum and spinel in ordinary chondrites: origins from AGB stars and a supernova. , 1998, Science.

[74]  A. Chieffi,et al.  The Evolution of a 25 M☉ Star from the Main Sequence up to the Onset of the Iron Core Collapse , 1998 .

[75]  E. Henley,et al.  Solar fusion cross sections , 1998, astro-ph/9805121.

[76]  L. Nittler,et al.  Presolar Al2O3 grains as probes of stellar nucleosynthesis and galactic chemical evolution , 1997 .

[77]  A. Chieffi,et al.  Evolution and Nucleosynthesis in Low-Mass Asymptotic Giant Branch Stars. I. Formation of Population I Carbon Stars , 1997 .

[78]  A. Boothroyd,et al.  The CNO Isotopes: Deep Circulation in Red Giants and First and Second Dredge-up , 1995, astro-ph/9512121.

[79]  G. Wasserburg,et al.  Deep Circulation in Red Giant Stars: A Solution to the Carbon and Oxygen Isotope Puzzles? , 1995 .

[80]  C. Raiteri,et al.  Reaction rates for O-18(alpha, gamma)Ne-22, Ne-22(alpha, gamma)Mg-26, and Ne-22(alpha, n)Mg-25 in stellar helium burning and s-process nucleosynthesis in massive stars , 1994 .

[81]  E. Parker Theoretical properties of Omega-loops in the convective zone of the Sun. 1: Emerging bipolar magnetic regions , 1994 .

[82]  G. Wasserburg,et al.  PREDICTIONS OF OXYGEN ISOTOPE RATIOS IN STARS AND OF OXYGEN-RICH INTERSTELLAR GRAINS IN METEORITES , 1994 .

[83]  H. Rebel,et al.  Coulomb dissociation studies as a tool of nuclear astrophysics , 1994 .

[84]  C. Raiteri,et al.  The Weak s-Component and Nucleosynthesis in Massive Stars , 1993 .

[85]  P. Wood,et al.  Evolution of Low- and Intermediate-Mass Stars to the End of the Asymptotic Giant Branch with Mass Loss , 1993 .

[86]  M. Shetrone,et al.  CARBON ISOTOPE RATIOS AND LITHIUM ABUNDANCES IN OLD DISK GIANTS , 1993 .

[87]  Michel Casse,et al.  Origin and evolution of the elements , 1993 .

[88]  K. Young,et al.  Abundances in Red Giant Stars: Nitrogen Isotopes in Carbon-rich Molecular Envelopes , 1991 .

[89]  Jeffery A. Brown,et al.  Carbon isotope ratios along the giant branch of M67 , 1991 .

[90]  V. Smith,et al.  The Chemical Composition of Red Giants. III. Further CNO Isotopic and s-Process Abundances in Thermally Pulsing Asymptotic Giant Branch Stars , 1990 .

[91]  Achim Weiss,et al.  Stellar Structure and Evolution , 1990 .

[92]  N. Grevesse,et al.  Abundances of the elements: Meteoritic and solar , 1989 .

[93]  Jeffery A. Brown Carbon-to-nitrogen ratios along the evolutionary sequence of M67 , 1987 .

[94]  V. Smith,et al.  Oxygen isotopic abundances in evolved stars. II. Eight MS and S stars , 1985 .

[95]  I. Iben,et al.  Asymptotic Giant Branch Evolution and Beyond , 1983 .

[96]  A. Sweigart,et al.  Meridional circulation and CNO anomalies in red giant stars , 1979 .

[97]  E. Spiegel Convection in Stars II. Special Effects , 1972 .

[98]  R. Ulrich THERMOHALINE CONVECTION IN STELLAR INTERIORS. , 1972 .

[99]  N. Simon,et al.  An explanation for the blue sequence of variable stars. , 1969 .