Accession Number : ADA263568


Title :   The Aurora at Quiet Magnetospheric Conditions: Repeatability and Dipole Tilt Angle Dependence


Corporate Author : PHILLIPS LAB HANSCOM AFB MA


Personal Author(s) : Oznovich, I ; Eastes, R W ; Huffman, R E ; Tur, M ; Glaser, I


Full Text : https://apps.dtic.mil/dtic/tr/fulltext/u2/a263568.pdf


Report Date : 01 Mar 1993


Pagination or Media Count : 10


Abstract : Is there a magnetospheric ground state? Do the position and size of the auroral oval depend on the magnetic dipole tilt angle at quiet magnetospheric conditions? In order to address these questions, northern hemisphere images of the aurora at 1356 A, obtained by Polar BEAR at solar minimum (beginning of 1987), were related to high temporal resolution IMP 8 measurements of the interplanetary magnetic field, to solar wind velocity, and to the ground-based activity index Kp. The first problem was addressed by a two- dimensional correlation study of the repeatability of auroral emissions in corrected geomagnetic space at conditions of minimum energy transfer from the magnetosphere. The correlation measure of auroral images was 0.6--0.85. Error simulations indicate that given the uncertainties in pixel position and intensity, the maximum expected value of the correlation measure is 0.65-0.9. The notion of a ground state magnetosphere is therefore supported by our data. Repeatability was found at the same level regardless of time or reconfigurations of the magnetosphere between images and independent of magnetic time sector. The second problem was addressed by relating latitudinal shifts of the aurora with dipole tilt angle without resorting to auroral boundary specification. Our data indicate that he latitude of the continuous aurora is related to the dipole tilt angle at quiet magnetospheric conditions. In the winter hemisphere a 10 deg increase in the dipole tilt angle causes a 1 deg decrease (increase) in the latitude of auroral emissions at noon (midnight).... Ultraviolet, Aurora, Magnetosphere, Dipole tilt, Image, Auroral oval, Satellite.


Descriptors :   *AURORAE , *MAGNETOSPHERE , *MAGNETIC DIPOLES , SIMULATION , ANGLES , EMISSION , GEOMAGNETISM , REPRINTS , MEASUREMENT , UNCERTAINTY , MAGNETIC FIELDS , MODELS , TWO DIMENSIONAL , ENERGY , WIND , INTENSITY , ENERGY TRANSFER , HIGH RESOLUTION , WINTER , IMAGES , SOLAR WIND , NORTHERN HEMISPHERE , LATITUDE , TILT , PIXELS , GROUND BASED , ERRORS , ARTIFICIAL SATELLITES , DIPOLES , WIND VELOCITY , GROUND STATE


Subject Categories : Atmospheric Physics


Distribution Statement : APPROVED FOR PUBLIC RELEASE