Physic 492 Lecture 12 - NSCLlynch/lecture_wk5.pdf · • Main points of today’s lecture: –...
Transcript of Physic 492 Lecture 12 - NSCLlynch/lecture_wk5.pdf · • Main points of today’s lecture: –...
• Main points of today’s lecture:– Fission. – Formation of actinides– Alpha decay
• Some history• Geiger Nuttall law
– Barrier penetration– WKB approximation– Theory of alpha decay
• Main points of last lecture:– Consequences of nuclear
instablity.• Number of stable isobars• Scarcity of odd-odd nuclei.
– Nuclei with more than one decay mode.
– Long decay chains secular equilibrium
– Evolution of alpha decay q value.
Physic 492 Lecture 12
Formation of the actinides
• The actinides are believed to be formed in supernovae by a rapidneutron capture process (r-process).– long lifetimes are associated with shell effects that low the
masses around Uranium and also lead.
Calculation of T• Consider only barrier penetration with wave coming from left onto the
barrier. Also neglect the attractive potential depth at r<R (i.e. V0=0)
• Main points of today’s lecture:– WKB approximation– Theory of alpha decay– Geiger-Nutall relationship– Q value dependence– Angular momentum
dependence.– Structure dependence.
• Main points of last lecture:– Fission. – Formation of actinides– Alpha decay
• Some history• Geiger Nuttall law
– Barrier penetration
Physic 492 Lecture 13
Testing the solution
• Calculate the derivatives
• In the limit of slowly varying potentials
• Neglecting the reflection at the outer edge of barrier.
Evaluating the solution
• Assume the barrier is purely Coulomb (l=0)
• Transmission coefficient
• including “knocking rate”
After integrating G
• Following hints in the book, you can show:
• Putting it together to get the mean lifetime.
There is a strong dependence on Qα
• Let’s try to describe some data: (Be smart and use a spread sheet or a program to do this.)
5.4x10174.4x10174.08232
1.4x10122.5x10124.77230
2.1x1076x1075.52228
35418546.45226
9.5x10-21.047.31224
1.3x10-42.8x10-38.13222
4.7E-710-58.95220
T1/2 (calc.)
T1/2 (meas.)
Q (MeV)A
Angular momentum effects
• What are the angular momenta and how are they related?– Taylor expand within the integral.
Let’s make another approximation• Approximate this correction by its value at the maximum of the
barrier.
• Somc specific values when the final states have the same energy.
• Main points of today’s lecture:– Angular momentum
dependence.– Structure dependence. – Nuclear reactions
• Main points of last lecture:– Barrier penetration– WKB approximation– Theory of alpha decay– Geiger-Nutall relationship– Q value dependence
Physic 492 Lecture 14
Let’s make another approximation• Approximate this correction by its value at the maximum of the
barrier.
• Somc specific values when the final states have the same energy.
What if the states are not degenerate?
• We can make a simple estimate.
• Consider the ratio of the decays
What about odd-A nuclear decays
• 241Am is the alpha emitter in many smoke detectors. It decays as follows