Nuclear Radiation

Figure 1. A table of known stable and radioactive nuclides

When looking at the table of nuclides it is obvious that the valley of stability is only a small percentage of all known nuclei. So most nuclei are considered unstable. To become stable these nuclides emit ionizing particles and radiation, resulting in a loss of energy from the original nuclei. This Process is called radioactive decay.

Alpha Decay

Alpha decay, which is usually seen in heavier elements, is the transformation of a parent nucleus to a daughter nucleus through the emission of a helium nucleus.

${\displaystyle _{Z}^{A}{\textrm {X}}\to \;_{Z-2}^{A-4}{\textrm {Y}}+\;_{2}^{4}{\textrm {He}}}$

Beta Decay

There are three types of Beta decays, ${\displaystyle \beta ^{-}}$-decay, ${\displaystyle \beta ^{+}}$-decay, and electron capture.

The first one, ${\displaystyle \beta ^{-}}$decay, occurs when a nucleus with an over abundance of neutrons transforms to a more stable nucleus by emitting an electron. This process can be denoted as:

${\displaystyle _{Z}^{A}{\textrm {X}}\to \;_{Z-1}^{A}{\textrm {Y}}+\;e^{-}}$

From electric-charge conservation, the proton number in such decays is increased by one unit.

Gamma Decay

${\displaystyle E_{\alpha }=E_{centerofmass}{\frac {M_{product}+M_{reaction}}{M_{reaction}}},\;\;\;\;E_{centerofmass}=E_{\alpha }{\frac {M_{reaction}}{M_{reaction}+M_{product}}}}$