- #1
Bassam Shehadeh
- 1
- 0
I'd appreciate any reference or citation shows what is the change of the nuclear radius at resonance states, especially for 56Fe and 40Ca.
Thank you
Thank you
Nuclear size at resonance states refers to the measurement of the size of a nucleus when it is in a state of resonance, meaning it is at its most stable energy level.
Nuclear size at resonance states is typically measured using scattering experiments, where particles are fired at the nucleus and the resulting scattering pattern is analyzed to determine the size of the nucleus.
The primary factor that affects nuclear size at resonance states is the number of protons and neutrons in the nucleus. The stronger the nuclear force holding the protons and neutrons together, the smaller the nucleus will be at resonance states.
Studying nuclear size at resonance states can provide valuable insights into the structure and behavior of nuclei, which can have implications for various fields such as nuclear physics, astrophysics, and nuclear medicine.
Yes, nuclear size at resonance states can change as the number of protons and neutrons in the nucleus changes. This can occur through processes such as nuclear reactions, which can alter the energy levels and stability of the nucleus.