Difference between revisions of "Forest NucPhys I Nuclear Reactions"
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Consider three different nuclear isobars all containing 14 nucleons ( isotopes are same Z, isotones are same N, so isobars are same A) | Consider three different nuclear isobars all containing 14 nucleons ( isotopes are same Z, isotones are same N, so isobars are same A) | ||
+ | |||
+ | <math>{14 \atop 6} C_8</math> | ||
+ | <math>{14 \atop 7} N_7</math> | ||
+ | <math>{14 \atop 8} O_6</math> | ||
[[Forest_NucPhys_I]] | [[Forest_NucPhys_I]] |
Revision as of 01:55, 8 April 2009
Nuclear Reactions
Types of Reactions
- elastic scattering
- X & Y and a & b are the same particles, momentum and energy are conserved, typically all are in their ground state
- In-elastic scattering
- If Y or b are in an excited state, energy is not conserved it is used to excite one of the exiting particles.
- Note
- Elastic collisions are usually referred to as collisions and not nuclear reactions.
Direct Reactions
- knockout reaction
- a & b are the same but there are 3 total particles in the final state.
- n + X \rightarrow Y + 3n = X(n,3n)Y
- Transfer Reaction
- a nuclear from projectile a is transfered to target X
- Nuclear PhotoEffect
- projectile a ejects a nucleon from target X
- e - + Mo-100 \rightarrow Mo-99 + n + e- = X(e,e'n)Y
Capture
Compound reactions
- Compound reaction
- projectiel a is captured by target X forming an intermediate state which then decays, possibly through multiple excited nuclear states/species, to Y and b
This is typically a low energy reaction in which particle Y doesn't leave the target material but the intermediate state may be surmised at through the detection of particle b.
Isospin
14 nucleon system
Consider three different nuclear isobars all containing 14 nucleons ( isotopes are same Z, isotones are same N, so isobars are same A)