extinct nuclides in and chronology of the early solar system
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Extinct nuclides in and chronology of the early solar system. Can extinct nuclides be used for chronology? Were extinct nuclides distributed homogeneously in the solar system? How were extinct nuclides produced? Solar or nucleo-synthetic? Al-Mg, Fe-Ni, Ca-K, Be-B and Mn-Cr. - PowerPoint PPT PresentationTRANSCRIPT
Extinct nuclides in and chronology of the early solar system
• Can extinct nuclides be used for chronology?
• Were extinct nuclides distributed homogeneously in the solar system?
• How were extinct nuclides produced?– Solar or nucleo-synthetic?
• Al-Mg, Fe-Ni, Ca-K, Be-B and Mn-Cr
New developments of Al-Mg systematics
• Half life =0.73 Ma• Canonical value of the initial 26Al/27Al for CAIs (C
a-Al-rich Inclusion = refractory inclusion) was 5x10-5.
• SIMS (high spatial resolution)
– Internal isochron for chondrules• MC-ICPMS (high precision, low spatial resolution)
– Bulk CAIs– Internal isochron for CAIs– Bulk chondrules
Internal isochrons for CAIs, Young et al., 2005
Internal isochrons for Chondrules, Kita et al., 2005
Formation ages of chondrules, Kita et al., 2005
From CAI
Al-Mg ages of bulk chondrules (Bizzarro et al., 2004)Ages from CAI are shown.
Summary of Al-Mg
• CAIs formed with initial 26Al/27Al ratios as high as 6.5x10-5.
• The canonical value (5x10-5) is probably due to resetting of anorthite. (measured by SIMS)
• High temperatures in CAI forming region continued ~300,000 years.
• Chondrule precursors are as old as CAIs.
• Chondrule formation continued ~2 Ma.
Half life of 60Fe is 1.5 Ma.60Fe is not produced by solar cosmic ray.
60Fe has to be injected from a nearby supernova.
Fe-Ni systematicsauthors samples age from CAI initial 60Fe/ 56Fe solar system initial
T exp BBirck & Lugmair, 1988 CAI 0Ma 1.6+/ -0.5 x 10-6 1.6+/ -0.5 x 10 -6 nucleosynthetic?
Shukolyukov & Lugmair, 1993 eucrite(CK) Mn-Cr 4.4Ma 4-7.5 x 10-9 3.2-6.0 x 10 -8 disturbed?
Shukolyukov & Lugmair, 1993 eucrite(J uv) Mn-Cr 5.5Ma 4.3 x 10 -10 6 x 10 -9 disturbed?
Kita et al., 1998 ureilite U-Pb 5Ma <1.8 x 10 -7 <1.8 x 10 -6
Kita et al., 2000 chondrule Al-Mg 1.7Ma <1.4 x 10 -7 <3.4 x 10 -7
Tachibana & Huss, 2003 sulfide in chondrites ~2Ma 1.1-1.7 x 10 -7 2.8-4.5 x 10 -7 disturbed?
Moustefaoui et al., 2003 sulfide in chondrite ~2Ma7.5+/ -2.6 x 10 -71.9 +/ - 0.7 x 10 -6 disturbed?
Tachibana et al., 2005 pyroxene in chondrules ~2Ma 2-5 x 10 -7 5-12 x 10 -7
Quitte et al., 2005 eucrites(J uv and Bo) Hf-W 19.4Ma 5.6 x 10-10 4.4 x 10 -6 disturbed?
This study olivine in angrite Mn-Cr 5Ma <6.5 x 10-9 <6.5 x 10-8
60Fe in the early solar system
10-10
10-9
10-8
10-7
10-6
10-5
0 5 10 15 20
initial 6
0 Fe/
56Fe
Age from CAI (Ma)
CAI
eucrite
eucrite
eucrite
ureilite
sulfide
sulfide
chondrule
chondrule
60Fe in the early solar system
angrite
Decay curve
summary on 60Fe
• 60Fe is produced by supernova, but not produced by solar cosmic ray. Therefore, it is very important for understanding origins of short-lived nuclides.
• 60Fe seems to be present in the early solar system, but the distribution may have been heterogeneous.
41Ca
• Half life of 41Ca is 0.15 Ma.• Nearly constant initial ratios of 41Ca/40Ca ~1.4x10-8
are observed for CAIs with 26Al. • If 41Ca is absent, 26Al is also absent.
– FUN (fractionation & unknown nuclear component) inclusions
• This was explained by a late injection model. But now that CAI formation seems to have continued for 300,000 years, there seems to be a problem.
41Ca in CAIs (Sahijpal et al., 1998)
FUN
What you expect from a late injection model (Sahijpal & Goswami, 1998)
FUN
Normal CAI
Late injection model:41Ca and 26Al
0
2
4
6
8
10
0 0.2 0.4 0.6 0.8 1 1.2
what you get from a late injection model
injection41Ca26Al
injection rate and radiogenic species
(arbitrary units)
Time (Ma)
FUN normal CAI
10Be (half life =1.5 Ma) produced by cosmic ray
• Abundant 10Be in CAIs was initially considered to be produced by solar cosmic ray.
• However, it was later shown that it may be GCR 10Be trapped in cores of molecular clouds.(Desch, 2003)
• FUN inclusions contain 10Be and do not contain 26Al.• Normal CAIs contain both 10Be and 26Al.
– Solar cosmic ray scenario• Fun inclusions are evaporation residues irradiated by solar cosmic ray?
• Normal CAIs are condensates getting the 10Be and 26Al from the irradiated nebula?
– Galactic cosmic ray scenario• Fun inclusions are evaporation residues or condensates formed before inject
ion of 26Al?
• Normal inclusions are condensates formed after injection of 26Al?
10 Be, 26Al and 41Ca in CAIs
10Be/9Be
FUN inclusions
Normal inclusions
Late injection
53Mn-53Cr, half-life = 3.7 Ma
• Suitable for studying planetary processes• Initial ratios of 53Mn/55Mn in CAIs are not w
ell established.• Recently, comparison with Al-Mg and Pb-P
b ages became possible for eucrites and angrites.– Previously such comparison was made for chon
drites but was not conclusive.
High initial Mn ratios for CAIs are inconsistent with Al-Mg system and could be due to heterogeneity of the nebula or due to distur
bed Mn-Cr system
Papanastassiou et al., 2005
Age comparisonAl-Mg, Mn-Cr and Pb-Pb ages
CAI, eucrite and angrites
CAI T Asuka881394 T LEW86010
26Al/ 27Al 5.00E-05 3.9Ma 1.26E-06 - -
53Mn/ 55Mn - - 4.30E-06 6.6Ma 1.25E-06
Pb/ Pb (Ma) 4567.2+/ -0.6 2.2Ma 4565+/ -0.9 7.2Ma 4557.8+/ -0.5
CAI T D'Orbigny & S99555 T LEW86010
26Al/ 27Al 5.00E-05 5.1Ma 4.00E-07 - -
53Mn/ 55Mn - - 3.00E-06 4.7Ma 1.25E-06
Pb/ Pb (Ma) 4567.2+/ -0.6 ? 4557.8+/ -0.5
Summary on Mn-Cr and comparison
• Al-Mg and Mn-Cr systems can be used as chronometers.
• Absolute ages of CAIs are probably ~4568Ma.
conclusions
• Can extinct nuclides be used for chronology?– Probably yes: 10Be, 26Al (excluding FUN), 53Mn (excl
uding CAIs)– Not sure: 41Ca, 60Fe
• How were extinct nuclides produced?– Because of 60Fe, nucleo-synthetic origin seems more l
ikely than SCR origin.– But, the late injection model need closer examination.
Initial 53Mn/55Mn in CAIs (Nyquist et al., 2001)
Mn-Cr age of chondrules (Nyquist et al., 2001)
Al-Mg system of a CAI measured with ICPMS (Young et al., 2002)
Internal isochron
Al-Mg ages of CAIs (Bizzarro et al., 2004)
MC-ICP-MS of bulk CAIsThe initial 26Al/27Al ratio is 6.0x10-5 if equilibrium fractionation law is used.
Angrite (S99555)
Eucrite (Juvinus) with impact melt
Solar nebula before exposed to supernova ejecta. Hester et al., 2004
Tachibana et al., 2005
Angrite (error bars are one sigma.)
6.9
7
7.1
7.2
7.3
7.4
7.5
0 1 105 2 105 3 105 4 105 5 105
S99555 isochron
60Ni/62 Ni
57Fe/62Ni
60Fe/56Fe <6.5x 10-9 (2)
More on 10Be
• So far, internal isochron for the first 1~3 Ma is made only with Al-Mg system.Thus, cannot be cross-calibrated.– e.g.dating of chondrules.– Mn-Cr cannot be used because the initial in CA
Is are strange.
• 10Be seems to be hopeful.
10Be in FUN