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A nuclear isomer is a metastable state of an atomic nucleus, in which one or more nucleons (protons or neutrons) occupy excited state levels (higher energy levels). ). "Metastable" describes nuclei whose excited states have half-lives 100 to 1000 times longer than the half-lives of the excited nuclear states that decay with a "prompt" half life (ordinarily on the order of 10
In chemistry, isomers are molecules or polyatomic ions with identical molecular formula – that is, the same number of atoms of each element – but distinct arrangements of atoms in space. [1] Isomerism refers to the existence or possibility of isomers.
The hafnium controversy was a debate over the possibility of "triggering" rapid energy releases, via gamma-ray emission, from 178m2 Hf, a nuclear isomer of hafnium.The energy release per event is 5 orders of magnitude (100,000 times) higher than in a typical chemical reaction, but 2 orders of magnitude less than a nuclear fission reaction.
Isomer shift can be expressed using the formula below, where K is a nuclear constant, the difference between R e 2 and R g 2 is the effective nuclear charge radius difference between excited state and the ground state, and the difference between [Ψ s 2 (0)] a and [Ψ s 2 (0)] b is the electron density difference in the nucleus (a = source, b ...
; spins 1, 1, 3, 1). All four of these isotopes have the same number of protons and neutrons, and they all have an odd number for their nuclear spin. The only other observationally "stable" odd–odd nuclide is 180m 73 Ta (spin 9), the only primordial nuclear isomer, which has not yet been observed to decay despite experimental attempts. [5]
Nuclear isomers (different excited states of the same nuclide) Magic number (physics) Electron capture; Bibliography. Sprawls, Perry (1993). "5 – Characteristics ...
Nuclear isomer From the plural form : This is a redirect from a plural noun to its singular form. This redirect link is used for convenience; it is often preferable to add the plural directly after the link (for example, [[link]]s ).
There are also ten known nuclear isomers. The longest-lived isotope is 247 Cm, with half-life 15.6 million years – orders of magnitude longer than that of any known isotope beyond curium, and long enough to study as a possible extinct radionuclide that would be produced by the r-process.