Yes.
In nuclear physics, the alpha decay band is characterized by the emission of alpha particles from a radioactive nucleus. This process typically involves the release of a helium nucleus, which consists of two protons and two neutrons. The alpha decay band is associated with certain specific energy levels and decay patterns within the nucleus.
weak force
Andor Frenkel has written: 'Millistrong C violation and [eta] decay' -- subject(s): CP violation (Nuclear physics), Decay, Mesons 'Remarks on \\' -- subject(s): Approximation theory, Hadron spectroscopy, Symmetry (Physics), Weak interactions (Nuclear physics)
All nuclear decay has some kind of particle or particles associated with it. Even the metastable decay of 4399Tcm, a gamma at 142.7 Kev, is considered to be a particle emission, because a gamma is a photon, and a photon is an elementary particle, per our understanding of modern quantum mechanics and particle physics, even though it has no mass at rest state.
Fredrik Falk has written: 'Directional correlation studies of alpha decay, hyperfine interaction and internal conversion' -- subject(s): Alpha decay, Angular correlations (Nuclear physics), Hyperfine interactions, Internal conversion (Nuclear physics)
Kenneth S. Krane's book "Introductory Nuclear Physics" provides solutions such as clear explanations, examples, and problems to help readers understand the fundamentals of nuclear physics. The book covers topics like nuclear structure, radioactive decay, and nuclear reactions in a comprehensive and accessible manner.
The process of radioactive decay actually falls under the study of nuclear chemistry rather than physics or a combination of the two.
that studies the atomic nucleus, including its structure, behavior, and interactions. It explores the forces that hold the nucleus together and the transformations that occur within it, such as nuclear fusion and fission. Nuclear physics has applications in energy production, medical imaging, and understanding the fundamental building blocks of matter.
The weak nuclear force is responsible for causing certain types of radioactive decay in particles, such as beta decay. It is one of the four fundamental forces in nature, along with gravity, electromagnetism, and the strong nuclear force.
These are all phenomenons in nuclear physics.
nuclear fission, alpha decay
The aims of specialization in nuclear physics are the same as that for every field of work: to focus the efforts within a given field into solving the most pressing questions, concerns, and issues that are currently around. Some current specializations within nuclear physics include radioactive decay, nuclear fusion, nuclear fission, and the production of new elements and isotopes.