Metallicity distribution function: Difference between revisions

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Line 1: {{Short description\|Distribution within a group of stars of the ratio of iron to hydrogen in a star}} The '''~~Metallicity~~metallicity distribution function''' is an important concept in [[stellar evolution\|stellar]] and [[galactic evolution]]. It is a curve of what proportion of stars have a particular [[metallicity]] ([Fe/H], the relative abundance of iron and hydrogen) of a population of stars such as in a cluster or galaxy. <ref name=Fenner2003>{{cite journal \|last1=Fenner \|first1=Yeshe \|last2=Gibson \|first2=Brad K. \|title=Deriving the Metallicity Distribution Function of Galactic Systems \|journal=Publications of the Astronomical Society of Australia \|date=5 March 2013 \|volume=20 \|issue=2 \|pages=189–195 \|doi=10.1071/AS02047 \|url=http://www.publish.csiro.au/?act=view_file&file_id=AS02047.pdf\|arxiv=astro-ph/0304320 \|bibcode=2003PASA...20..189F \|s2cid=9965955 }}</ref><ref name=Casagrande>{{cite journal \|last1=Casagrande \|first1=L. \|last2=Schönrich \|first2=R. \|last3=Asplund \|first3=M. \|last4=Cassisi \|first4=S. \|last5=Ramírez \|first5=I. \|last6=Meléndez \|first6=J. \|last7=Bensby \|first7=T. \|last8=Feltzing \|first8=S.\|author8-link= Sofia Feltzing \|title=New constraints on the chemical evolution of the solar neighbourhood and Galactic disc(s) \|journal=Astronomy & Astrophysics \|date=26 May 2011 \|volume=530 \|pages=A138 \|doi=10.1051/0004-6361/201016276} \|url=http://www.aanda.org/articles/aa/pdf/2011/06/aa16276-10.pdf\|arxiv=1103.4651 \|~~doi-broken-date~~bibcode=~~2018-03-16~~2011A&A...530A.138C \|s2cid=56118016 }}</ref><ref name=Frinchaboy>{{cite ~~book~~journal\|last1=Frinchaboy\|first1=P. M.\|last2=Rhee\|first2=J.\|last3=Ostheimer\|first3=J. C.\|last4=Majewski\|first4=S. R.\|last5=Patterson\|first5=R. J.\|last6=Johnson\|first6=W. Y.\|last7=Dinescu\|first7=D. I.\|last8=Palma\|first8=C.\|last9=Westfall\|first9=K. B.\|title=The Metallicity Distribution Function of omega Centauri\|journal=Omega Centauri\|date=2002\|volume=265\|pages=143\|arxiv=astro-ph/0112169 \|bibcode=2002ASPC..265..143F}}</ref><ref name=Halo-Beers-2005>{{Cite journal \|arxiv=astro-ph/0508423 \|last1=Beers \|first1=Timothy C \|title=The Metallicity Distribution Function of the Halo of the Milky Way \|journal=Proceedings of the International Astronomical Union \|volume=1 \|pages=~~175~~175–183 \|last2=Christlieb \|first2=Norbert \|last3=Norris \|first3=John E \|last4=Bessell \|first4=Michael S \|last5=Wilhelm \|first5=Ronald \|author6=Carlos Allende Prieto \|last7=Yanny \|first7=Brian \|last8=Rockosi \|first8=Constance \|author9=Heidi Jo Newberg \|last10=Rossi \|first10=Silvia \|author11=Young Sun Lee \|year=2005 \|doi=10.1017/S1743921305005521\|bibcode=2005IAUS..228..175B \|s2cid=18380786 }}</ref><ref name=M31-Sarajedini-2005>{{Cite journal \|arxiv=astro-ph/0506653 \|last1=Sarajedini \|first1=Ata \|title=The Metallicity Distribution Function of Field Stars in M31's Bulge \|journal=The Astronomical Journal \|volume=130 \|issue=4 \|pages=1627–1634 \|last2=Jablonka \|first2=Pascale \|year=2005 \|doi=10.1086/433171\|bibcode=2005AJ....130.1627S \|s2cid=17051527 }}</ref><ref name=Shlesinger-2011>{{Cite journal \|arxiv=1112.2214 \|last1=Schlesinger \|first1=Katharine J \|title=The Metallicity Distribution Functions of SEGUE G and K dwarfs: Constraints for Disk Chemical Evolution and Formation \|journal=The Astrophysical Journal \|volume=761 \|issue=2 \|pages=160 \|last2=Johnson \|first2=Jennifer A \|last3=Rockosi \|first3=Constance M \|author4=Young Sun Lee \|last5=Morrison \|first5=Heather L \|last6=Schoenrich \|first6=Ralph \|author7=Carlos Allende Prieto \|last8=Beers \|first8=Timothy C \|last9=Yanny \|first9=Brian \|last10=Harding \|first10=Paul \|last11=Schneider \|first11=Donald P \|last12=Chiappini \|first12=Cristina \|last13=da Costa \|first13=Luiz N \|last14=Maia \|first14=Marcio A. G \|last15=Minchev \|first15=Ivan \|last16=Rocha-Pinto \|first16=Helio \|last17=Santiago \|first17=Basilio X \|year=2011 \|doi=10.1088/0004-637X/761/2/160\|bibcode=2012ApJ...761..160S \|s2cid=119205318 }}</ref><ref name=Yong2012>{{cite journal \|title=The Most Metal-Poor Stars. III. The Metallicity Distribution Function and CEMP Fraction \|journal=The Astrophysical Journal \|first1=David \|last1=Yong \|first2=John E. \|last2=Norris \|first3=M. S. \|last3=Bessell \|first4=N. \|last4=Christlieb \|first5=M. \|last5=Asplund \|first6=Timothy C. \|last6=Beers \|first7=P. S. \|last7=Barklem \|first8=Anna \|last8=Frebel \|first9=S. G. \|last9=Ryan \|date=1 January 2013 ~~\|publisher=~~ \|volume=762 \|issue=1 \|pages=27 \|doi=10.1088/0004-637X/762/1/27 \|arxiv = 1208.3016 \|bibcode = 2013ApJ...762...27Y \|s2cid=16930550 }}</ref> MDFs are used to test different theories of galactic evolution. Much of the iron in a star will have come from earlier type Ia [[supernova]]e. Other [alpha] metals can be produced in core collapse supernovae.<ref>{{cite web \|url=http://www.astro.bas.bg/~petrov/holzman07_files/ay616/node5.html \|title=Chemical evolution models \|work=bas.bg \|accessdate=3 March 2017}}</ref><ref>{{Cite journal \|arxiv=1106.2168 \|title=<nowiki>The [Fe/H], [C/Fe], and [alpha/Fe] distributions of the Bootes I Dwarf Spheroidal Galaxy</nowiki> \|journal=The Astrophysical Journal \|volume=738 \|pages=51 \|last1= Lai \|first1=David K. \|author2=Young Sun Lee \|last3=Bolte \|first3=Michael \|last4=Lucatello \|first4=Sara \|last5= Beers \|first5=Timothy C. \|last6= Johnson \|first6=Jennifer A. \|last7=Sivarani \|first7=Thirupathi \|last8= Rockosi \|first8=Constance M. \|author-link8=Constance M. Rockosi \|year=2011 \|issue=1 \|doi=10.1088/0004-637X/738/1/51 \|bibcode = 2011ApJ...738...51L \|s2cid=118627008 }}</ref>▼ ▲MDFs are used to test different theories of galactic evolution. Much of the iron in a star will have come from earlier type Ia [[supernova]]e. Other [alpha] metals can be produced in core collapse supernovae.<ref>{{cite web \|url=http://www.astro.bas.bg/~petrov/holzman07_files/ay616/node5.html \|title=Chemical evolution models \|work=bas.bg \|accessdate=3 March 2017}}</ref><ref>{{Cite journal \|arxiv=1106.2168 \|title=<nowiki>The [Fe/H], [C/Fe], and [alpha/Fe] distributions of the Bootes I Dwarf Spheroidal Galaxy</nowiki> \|journal=The Astrophysical Journal \|volume=738 \|pages=51 \|last1= Lai \|first1=David K. \|author2=Young Sun Lee \|last3=Bolte \|first3=Michael \|last4=Lucatello \|first4=Sara \|last5= Beers \|first5=Timothy C. \|last6= Johnson \|first6=Jennifer A. \|last7=Sivarani \|first7=Thirupathi \|last8= Rockosi \|first8=Constance M. \|author-link8=Constance M. Rockosi \|year=2011 \|doi=10.1088/0004-637X/738/1/51 \|bibcode = 2011ApJ...738...51L }}</ref> ==References== Line 12 ⟶ 9: ==Further reading== * [http://ned.ipac.caltech.edu/level5/March03/McWilliam/McWilliam_contents.html ABUNDANCE RATIOS AND GALACTIC CHEMICAL EVOLUTION. Andrew McWilliam. Annu. Rev. Astron. Astrophys. 1997. 35: 503-556 ] * McWilliam, Andrew. (2003). [http://ned.ipac.caltech.edu/level5/March03/McWilliam/McWilliam_contents.html Abundance ratios and galactic chemical evolution]. Annual Review of Astronomy and Astrophysics. 35. 503–556. {{doi\|10.1146/annurev.astro.35.1.503}}. {{Star}} {{Portal bar\|Astronomy\|Star}} [[Category:Astrophysics]] [[Category:Physical cosmology]] [[Category:Stellar astronomy]] [[Category:Stellar evolution]] [[Category:Iron]] [[Category:Hydrogen]] {{~~astronomy~~physical-cosmology-stub}}