Ge 11a, 2014, Lecture 3 Radioactivity and quantitative geochronology
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1 Ge 11a, 2014, Lecture 3 Radioactivity and quantitative geochronology
2 Radioactive decay Antoine Henri Becquerel Discovered spontaneous radioactivity Marie Skłodowska-Curie Explored spontaneous radioactivity Shockingly dangerous chemical separations to isolate and study heavy radioactive elements Major innovator of radiological medicine Ernest Rutherford, 1st Baron Rutherford of Nelson Synthesis of radioactive deca Created experimental nuclear physics First dates of geological materials First woman to Win a Nobel prize (physics) Win another Nobel prize (chemistry) (first human to win two ) Teach at the Sorbonne Be enshrined in the Paris Pantheon Trained in Poland s underground Flying University Transformative figure in women s +minority s rights
3 Rutherford recognized three types of radioactivity: emits mass but no charge ( 4 He nucleus) emits charge but no (observable) mass (electron or positron) emission has neither charge nor mass (high-frequency radiation) Realizes radiactivity has two key properties: - exothermic - some forms emit particles ( = 4 He) that might accumulate as record of the passage of time Postulates that rate of emission is independent of environment, history, etc. It is intrinsic & probabilistic. The most well reasoned forms of creation science question this hypothesis. They are right to do so (though all experiments and nuclear theories to-date suggest it is a good approximation in geological environments)
4 If rate of emission is invariant w/ time or setting, then radiation can serve as a clock: - dn/dt = N Constant of proportionality; now called decay constant (a miracle of integration occurs) N = N 0 e - t 1/ = mean life ln2/ = half life For and radiation, nothing lasting is produced (at least, nothing detectable by 1900-era scientists). But particles accumulate in a measurable way: Define D as number of daughter particles D = D 0 + D* D* = N 0 - N D = N 0 (1-e - t ) + D 0 = N (e t -1) + D 0
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6 Re-arrange decay equation to make time the dependant variable: Pick mineral with no structural He; D 0 = 0 t = ln {[ (D-D 0) N ] +1} Radiation counting in lab Pick mineral w/ stoichiometric Parent element (e.g., UO 2 ), so N depends only on mass With correct choice of sample, t depends only on D - the amount of He trapped in the mineral lattice
7 Rutherford s chronometer U ~ 1.5x10-10 U 8 Pitchblende, or U ore, rich in UO 2 1 gram of UO 2 Time (yrs) moles He cc STP x10-9 1x million 5x million 5x billion 5x Found African pitchblende is ca. 500 million years old Problems: Sensitivity and precision of manometric measurements Reaction is not fully described. U weighs ca. 238 g/mol; 8 He nuclei only 32 g/mol. Where is the rest of the mass! He is not well retained by crystals
8 Breakthrough: Aston s positive ray device
9 Ions are passed through a magnetic field oriented orthogonal To their direction of motion. Ions are deflected with a radius of curvature set by the force balance between the magnetic field (qv x B) and the centripital force (mv 2 /r). That is, r = mv/(qb) Low momentum (low mass)) High momentum (high mass) If energy is of all ions is equal, this acts as a mass filter.
10 Intensity Strength of B field
11 Finnigan Triton A modern thermal ionization mass spectrometer Momentum analyzer (electro magnet) Collectors (faraday cups and/or electron multipliers) Ion source
12 Advances stemming from mass spectrometry Precision improves from ca. ±1 % to ca. ±10-5 Recognition of isotopes permits the definition of decay reactions Z protons + N neutrons = A mass decay: Z + N (Z-2) + (N-2) + 4 He + + Q e.g., 238 U 234 Th + 4 He; = 1.55x Sm 143 Nd + 4 He; = 6.5x10-12 yr -1 decay: Z + N (Z+1) + (N-1) + e Q e.g., 87 Rb 87 Sr + e - ; = 1.42x10-11 yr -1 e.g., 14 C 14 N + e - ; = 1.2x10-4 yr -1 decay: Z + N (Z-1) + (N+1) + e Q e.g., 18 F 18 O + e + ; = 3.3x10 3 yr -1 Most geological chronometers depend on and decay
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14 Mass spectrometry is best at measuring relative abundances of isotopes. This motivates an additional change to age-dating equations: D = Daughter ( 4 He; 87 Sr; 143 Nd) N = Parent ( 238 U; 87 Rb; 147 Sm) S = Stable ( 3 He; 86 Sr; 144 Nd) The stable nuclide is always a non-radioactive, non-radiogeneic isotope of the same element as the Daughter nuclide. D = N (e t - 1) + D 0 D/S = N/S (e t - 1) + D 0 /S Y-axis value X-axis value Slope Y-intercept This is the equation for a line in the isochron plot
15 The anatomy of the isochron diagram Measured composition of object D/S m = e t - 1 D 0 /S N/S Three strategies for use: Measured objects known to have D 0 /S ~ 0 Assume or infer D 0 /S from independent constraint Define slope from two or more related objects, yielding both age (t) and D 0 /S as dependent variables. These objects must be of same age, have started life with identical D 0 /S, but differ significantly in N/S
16 A common example: the Rb-Sr chronometer applied to granite Isotopes of Sr: 84 Sr: 0.56 % 86 Sr: 9.87 % 87 Sr: 7.04 % 88 Sr: % (all values approximate) Sr: typically a +2 cation; 1.13 Å ionic radius (like Ca: +2, 0.99 Å) Isotopes of Rb: 85 Rb: Stable 87 Rb: Radioactive: l = 1.42x10-11 yr -1 ; - decay 85 Rb/ 87 Rb in all substances from earth and moon assumed = Rb: typically a +1 cation; 1.48 Å ionic radius (like K; +1, 1.33 Å)
17 The Sm-Nd chronometer Isotopes of Nd: 142 Nd: 27.1 % 143 Nd: 12.2 % 144 Nd: 23.9 % 145 Nd: 8.3 % 146 Nd: 17.2 % ( 147 Nd: d half life) 148 Nd: 5.7 % 150 Nd 5.6 % (all values approximate) Isotopes of Sm: 144 Sm: 3.1 % (146 Sm: 10 8 yr half life) 147 Sm: 15.0 % (1.06x10 11 yr half life) 148 Sm: 11.2 % 149 Sm: 13.8 % 150 Sm: 7.4 % (151 Sm: 93 year half life) 152 Sm 26.7 % 154 Sm: 22.8 % (all values approximate)
18 Normalized abundance The rare earth elements Plagioclase Garnet Pyroxene
19 A fragment of the chondritic meteorite, Allende
20 A thin section of the chondritic meteorite, Allende
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23 Comparison with a modern Kelvinistic argument: Summary of typical stellar lifetimes, sizes and luminosities "There is one independent check on the age of the solar system determined by radioactivity in meteorites. Detailed theoretical studies of the structure of the sun, using its known mass and reasonable assumptions about its composition, indicates that it has taken the sun about five billion years to attain its present observed radius and luminosity. W. Fowler
24 14 C decay: The basis of most ages for geologically young things 14 C is produced in the atmosphere: 14 N + n = 14 C + p Cosmic-ray fast neutrons Undergoes beta-decay with a half-life of 5730 yrs: 14 C = 14 N + e - = 1.209x10-4 yr -1 Age (yrs) = 19,035 x log (C/C 0 ) [ or x log ( Activity / Activity0 ) ] Key for application is assumption of a value of C 0, which depends on 14 C/ 12 C ratio in atmosphere Real applications require correction for natural isotopic fractionation (e.g., during photosynthesis) and must consider variations in production rate with time and isotopic heterogeneity of surface carbon pools
25 The bomb spike Natural heterogeneity: 14 C ages of deep ocean water
26 Variation in atmospheric 14 C/ 12 C through time due to natural processes 14 C = (R i /R 0-1)x1000 Where R i = 14 C/ 12 C at time of interest R 0 = 14 C/ 12 C of pre-1890 wood projected forward to 1950 (?!?&*!)
27 Using 14 C to reconstruct earthquake recurrence intervals
28 The U-Pb system and the age of the Earth 238 U = 206 Pb + 8x 4 He = x10-10 (4.5 Ga half life) 235 U = 207 Pb + 7x 4 He = x10-10 (0.7 Ga half life) 204 Pb is a stable isotope 238 U/ 235 U is (nearly) constant in nature = Pb 204 Pb 206 Pb 0 = Pb 238 U 204 Pb (e t - 1) 207 Pb 204 Pb 207 Pb 0 = Pb 235 U 204 Pb (e t - 1) 207 Pb 204 Pb 206 Pb 204 Pb Pb Pb 206 Pb Pb = (e t - 1) (e t - 1)
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31 K-Ar dating e - emission; = 4.982x10-10 yr K % of natural K e - capture; e = 0.581x10-10 yr Ca 40 Ar 88.8 % 11.2 % = e + = 5.543x10-10 yr Ar = e / 40 K(e t -1) + 40 Ar 0
32 Some closure temperatures w/r to K/Ar dating: Amphibole: 500 to 700 C Biotite: 300 to 400 C K-feldspar: C
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