DIFFERENTIAL PHASE MODE
DIFFERENTIAL PHASE MODE
(from Kudeki and Woodman, “Incoherent backscatter radar measurements at Jicamarca
with a beam pointed perpendicular to B“, paper presented at the 10th ISEA meeting in Antalya, Turkey, 2000)
This new mode is intended to get density, temperature and drift measurements while pointing the Jicamarca antenna perpendicular to the magnetic field. Consequently, the Doppler spectra contain a sharp cusp-like feature centered about the bulk E x B velocity of the ionospheric plasma [ Kudeki et al., 1999 ].
The overall shape of the spectrum about the mean Doppler velocity represents a beam weighted superposition of incoherent scatter spectra corresponding to small magnetic aspect angles. Incoherent scatter theory based models for the measured spectra indicate that the spectral width is regulated by the electron temperature Te. However, unless electron Coulomb collisions are included in the model, unrealistically low Te estimates are obtained via model fitting of the measured spectra. The collisions broaden the incoherent scatter spectra at very small magnetic aspect angles (due to cross-field diffusion), but reduce the spectral width at larger aspect angles by reducing the rate of parallel diffusion as pointed out first by Sulzer and Gonzalez  (The effect of electron Coulomb collisions on the incoherent scatter spectrum in the F region at Jicamarca, JGR, 104, 22,535). Spectral width reduction due to electron collisions is particularly important in measurements made close to perpendicularity to B. As a consequence, estimation of Te from incoherent scatter spectra measured at small magnetic aspect angles requires the knowledge of electron collision frequency and plasma density profiles in F-region.
The preliminary measurements have been made with multi-receiver (north-south antenna separation) and dual-polarization (0- and X-mode) F-region incoherent scatter measurements. The north-south and O-X cross-spectra of the backscattered signals provide additional information about the ionospheric plasma. Differential phase information extracted from O-X cross-spectra provides estimates of the absolute electron density profiles near the F-region peak. The normalized magnitude of the north-south cross-spectra (coherence) is sensitive to Te/Ti , therefore, joint inversions of the incoherent scatter self- and cross-spectra holds the potential for the estimation of all the state parameters describing the F-region plasma at low-latitudes.