circular state
Appearance
English
[edit]Etymology
[edit]Named after the torus-like shape of the valence electron orbital in these states, which resembles a classical circular orbit.[1]
Noun
[edit]circular state (plural circular states)
- (physics) Any of those quantum states of an atom, which has a high principal quantum number , and a magnetic quantum number with the maximum possible magnitude, .
- 1962 December, J.R. Rook, “The decay of K− mesic atoms”, in Nuclear Physics, volume 39, , page 479:
- It has been shown 3,4) that the selection rules on the Auger and X-ray transition probabilities tend to populate preferentially the circular states, that is those for which the orbital angular momentum is given by .
- 1983 October 17, Randall G. Hulet and Daniel Kleppner, “Rydberg Atoms in "Circular" States”, in Physical Review Letters, volume 51, , page 1430:
- We report the production of a population of atoms in a Rydberg state with , where and are the magnetic and principal quantum numbers, respectively. We designate these states as "circular" because in the classical limit they describe an electron in a circular orbit. Among all the states with a given principal quantum number, the circular states have the largest magnetic moment, smallest Stark effect, and longest radiative lifetime.
- 2021 August 6, Sam R. Cohen and Jeff D. Thompson, “Quantum Computing with Circular Rydberg Atoms”, in PRX Quantum, volume 2, 030322: , page
- So-called circular states with the maximal angular momentum can have lifetimes exceeding 100 s, times longer than those of low- states, in appropriately engineered environments.
References
[edit]- ^ Randall G. Hulet and Daniel Kleppner (1983 October 17) “Rydberg Atoms in "Circular" States”, in Physical Review Letters, volume 51, , page 1430