Experimental Determination of Electron Orbits in the Field of a Magnetic Dipole

Abstract

An analogue method for determination of electron orbits in a magnetic dipole field has been developed by Malmfors several years ago. The method is in principle a scale model experiment in a vacuum chamber where the results are obtained by measuring the deflection of an electron beam in the field of a “terrella”. During the last years this method has been further developed, and particle orbits corresponding to the following momenta have now been measured: 1) 2 · 10⁹ — 10¹⁰eV/cOrbits arriving at magnetic latitude 58° in E, S, W and N directions at zenith angles of 0°, 20°, 40°, 60°, 80°. Orbits arriving from zenith at different latitudes beginning with 38° and continuing at intervals of 2 degrees up to the pole. 2) 10¹⁰ — ∞ eV/cOrbits arriving at magnetic latitude 0°, 10°, 20°, 30°, 40°, 50°, 60°, 70°, 80°, and 90° from E, S, W and N directions at zenith angles of 0°, 8°, 16°, 24°, 32°, 40°, 48°, 56°, 64°, 72°, and 80°. The direction of orbits far away from the dipole is published as a function of momentum. The particles are assumed to move towards the earth and to be positively charged. This article includes only diagrams for the latitudes 90°—60°. The remaining ones will be published in the next issue of this journal. DOI: 10.1111/j.2153-3490.1953.tb01045.x