The Roles of Thomson and Rutherford in the Birth of Atomic Physics:The Interaction of Experiment and Theory

The discovery of the electron in 1897 by J. J. Thomson meant that the atom was no longer the smallest unit of matter. This led to a set of responses both experimental and theoretical which consolidated a new branch of physics—atomic physics. What were the tools available at the time to address atomic physics and how were they deployed? The research begins with Thomson who sought to describe a structure of the atom that accommodates both mechanical and electromagnetic properties, but he had little experimental data to base it on. It was indeed an experimental finding which paved the way for the modern conception of the structure of the atom—Rutherford's scattering experiment. A complex relation between theory and experiment in a new domain of physics is uncovered. While the revolutionary discovery of the electron was the result of a classical propagation experiment, the discovery of the concentrated charge at the center of the atom was an outcome of a scattering experiment—a bombardment technique. This technique has turned out to be the hallmark of experimental atomic physics. While the revolutionary discovery of the electron is the result of J. J. Thomson's classical propagation experiment, the discovery of the concentrated charge at the center of the atom is the outcome of E. Rutherford's scattering experiment. This technique has turned out to be the hallmark of experimental atomic physics.