Premium
Comparing the Dynamic Global Core Plasma Model with ground‐based plasma mass density observations
Author(s) -
Jorgensen Anders M.,
Heilig Balazs,
Vellante Massimo,
Lichtenberger Janos,
Reda Jan,
Valach Fridrich,
Mandic Igor
Publication year - 2017
Publication title -
journal of geophysical research: space physics
Language(s) - English
Resource type - Journals
eISSN - 2169-9402
pISSN - 2169-9380
DOI - 10.1002/2016ja023229
Subject(s) - daytime , plasmasphere , plasma , physics , simple (philosophy) , computational physics , core (optical fiber) , statistical physics , atmospheric sciences , magnetosphere , optics , nuclear physics , philosophy , epistemology
Abstract The Dynamic Global Core Plasma Model (DGCPM) is an empirical dynamical model of the plasmasphere which, despite its simple mathematical form, or perhaps because of its simple mathematical form, has enjoyed wide use in the space physics modeling community. In this paper we present some recent observations from the European quasi‐Meridional Magnetometer Array (EMMA) and compare these with the DGCPM. The observations suggest more rapid daytime refilling and loss than what is described in the DGCPM. We then modify the DGCPM by changing the values of some of its parameters, leaving the functional form intact. The modified DGCPM agrees much better with the EMMA observations. The modification resulted in an order‐of‐magnitude faster daytime refilling and nighttime loss. These results are also consistent with previous observations of daytime refilling.