Abstract
A quantum-mechanical theory of the Čerenkov radiation is developed wherein the refractive medium is treated not as a continuum but as an aggregation of atoms. The atoms and the electromagnetic field are considered as forming a single system which interacts with an incident charged particle. The Čerenkov radiation arises in first-order transitions induced by this interaction. The nature of this process suggests a quantum-mechanical definition of the dielectric constant with the aid of which the theory yields the well-known properties of the Čerenkov radiation. The definition of the dielectric constant is shown to lead to the same expression for this quantity as is given by the Kramers-Heisenberg dispersion formula.
- Received 27 August 1953
DOI:https://doi.org/10.1103/PhysRev.92.1362
©1953 American Physical Society