lesson 8 - oregon state universityoregonstate.edu/instruct/ch374/ch418518/lesson8-rev.pdf · lesson...
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Lesson 8
Alpha Decay
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Alpha decay (α)
• Decay by the emission of doubly charged helium nuclei 4He2+.
• 238U→234Th + 4He • ΔZ = -2, ΔN=-2, ΔA=-4 • All nuclei with Z≥83 decay by α-decay as do
some rare earth nuclei.Alpha decay is also known in the 100Sn region.
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Alpha Decay • The emitted α-particles are
monoenergetic,ranging in energy from 1.8-11.6 MeV (typically 4-9 MeV).
• They can be stopped by a piece of paper and are thus an internal radiation hazard rather than an external hazard.
• The naturally occurring α-emitters form long series of nuclei that decay to one another. Some of these naturally occurring decays series involve isotopes of Rn, a gas.
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Typical Alpha Spectra
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Important Features of Alpha Decay
• Generally energy of decay increases with increasing Z, but in any case the energy of the emitted α-particle is less than the Coulomb barrier for the α-nucleus interaction.
• For e-e nuclei, decay leads to gs of daughter. For odd A nuclei, decay is not to the gs but a low-lying excited state.
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Energetics of Alpha Decay
• Qalpha
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Energetics of Alpha Decay (cont.)
• Qalpha --Generally increases with increasing Z, but is subject to shell effects.
N=152-154 Z=82, N=126
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Qα, Tα
€
Qα = (Mparent −Mdaughter −Malpha )c2
Tα =Qα
Mdaughter
Mparent
Trecoil =Qα
Malpha
Mparent
Difference between detecting emitted alpha particle and detecting alpha from implanted atom.
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Closed decay cycles
Used to measure unknown masses or Q values for beta decay
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Understanding natural alpha-decay chains
• In the U natural decay series, see pattern of mixed alpha and beta decays. Why?
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Understanding Alpha Decay
• The problem:
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Understanding Alpha Decay (cont.)
• The Geiger Nuttall Law
€
log(t1/ 2) = A +BQα
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Theory of Alpha Decay
• One of the first successes of quantum mechanics
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€
λ = fT
f =v2R
=2(V0 +Q) /µ
2R~ 1021 /s
T ≈ e−2G
2G =2h
2m(V (x) − E[ ]1/ 2dxx1
x2
∫
2G =2h
2µ(ZαZDe2
r−Qα )
⎡
⎣ ⎢
⎤
⎦ ⎥
1/ 2
drR
b
∫
b =ZαZDe
2
Qα
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After some algebra and simplifying for the nuclear case
€
2G = 2 2µh2Qα
ZαZDe2( ) π2⎛
⎝ ⎜
⎞
⎠ ⎟ ~ 60 −120
T ~ 10−55 −10−27
Then
€
t1/ 2 =ln2λ
=ln2fT
=ln2
2 V0 +Qα( ) /µ[ ]1/ 2
2Re−2G
This is called the “one-body” theory of alpha decay
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How well does one-body theory work?
Role of “pre-formation factor”
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Effect of angular momentum
Selection Rules
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Which states of daughter are populated in alpha decay?
• Dominant effect is Qα
• Angular momentum effect
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Hindrance Factors Hindrance Factor=t1/2(meas)/t1/2(one-body)
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Proton Decay • Same theory as alpha decay, except no pre-
formation factor for protons • Where do you expect to see proton decay? (Sp=0)
proton dripline
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Proton Decay(cont.)
• Proton energies are low and transmission factors are small.
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Proton Decay(cont.) • Alpha decay complicates measurements
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Heavy Particle Decay • What about emitting particles other than alphas
or protons?
Q12C