Energetic photoelectrons and the polar rainIn the daytime midlatitudes, the Low Altitude Plasma Instrument (LAPI) on board the Dynamics Explorer 2 satellite has observed photoelectrons with energies as high as 850 eV. These energetic photoelectrons are an extension of the 'classical' photoelectrons (less than 60 eV) and result from photoionization of neutrals by soft solar X-rays. Since these photoelectrons are produced wherever the solar flux is incident on the earth's atmosphere, they should be present in sunlit polar cap. But in the polar cap, over these same energies, there is a well-known electron population: the polar rain, a low intensity electron flux of magnetospheric origin. Thus, in the sunlit polar cap, an energetic population of electrons should consist of both an ionospheric (photoelectron) and a magnetospheric (polar rain) component. Using numerical solutions of an electron transport equation with appropriate boundary conditions and sunlit polar cap LAPI data, it is shown that the two populations (photoelectron and polar rain) are indeed present and are both needed to explain polar cap observations.
Document ID
19910048387
Acquisition Source
Legacy CDMS
Document Type
Conference Proceedings
Authors
Decker, Dwight T. (Boston College Chestnut Hill, MA, United States)
Jasperse, J. R. (USAF, Geophysics Laboratory, Hanscom AFB MA, United States)
Winningham, J. D. (Southwest Research Institute San Antonio, TX, United States)