Sketch the potential for a-decay, assuming can be modelled as a pre-formed particle inside the daughter nucleus. On this sketch, illustrate a typical tunnelling wave-function, which has an energy Qwhich is less than the potential for R for a-decays approximately obeys Z In λx const. + √Q Relate the answer you obtain to that in part (a). 1 ㅠ (You may use the approximation V [²√ ² - 1 dr ~ √b for b> R.) r 2

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Sketch the potential for a-decay, assuming it can be modelled as a pre-formed particle inside the daughter nucleus. On this sketch, illustrate a typical tunnelling wave-function, which has an energy Q which is less than the potential for R<r<b, where r is the radius from the centre of the daughter nucleus, and r = R and r = b are the radii where the potential has the value Q. The transmission probability is P = e-2G where the Gamow factor is G = 2m ħ² R S - √V (r) – Q dr, where m = ma is the mass of the a-particle. The potential for a-decay in terms of a daughter nucleus with Z protons and mass number A is V(r) = R From this, show that the Gamow factor is x Z/√Q. Hence show that the decay constant for a-decays approximately obeys In λ x const. + 2e²Z 4π€or Relate the answer you obtain to that in part (a). ob 1 (You may use the approximation r 1 - dr ~ Z √Q π VO √b for b> R.) 2