Effect of the Temperature of Background Plasma and the Energy of Energetic Electrons on Z-Mode Excitation

Abstract

It has been suggested that the Z-mode instability driven by energetic electrons with a loss-cone type velocity distribution is one candidate process behind the continuum and zebra pattern of solar type-IV radio bursts. Both the temperature of background plasma (T0) and the energy of energetic electrons (ve) are considered to be important to the variation of the maximum growth rate (γmax). Here we present a detailed parameter study on the effect of T0 and ve, within a regime of the frequency ratio (10 ≤ ωpece ≤ 30). In addition to γmax, we also analyze the effect on the corresponding wave frequency (ωrmax) and propagation angle (θmax). We find that (1) γmax in-general decreases with increasing ve, while its variation with T0 is more complex depending on the exact value of ve; (2) with increasing T0 and ve, ωrmax presents step-wise profiles with jumps separated by gradual or very-weak variations, and due to the warm-plasma effect on the wave dispersion relation ωrmax can vary within the hybrid band (the harmonic band containing the upper hybrid frequency) and the band higher; (3) the propagation is either perpendicular or quasi-perpendicular, and θmax presents variations in line with those of ωrmax, as constrained by the resonance condition. We also examine the profiles of γmax with ωpece for different combinations of T0 and ve to clarify some earlier calculations which show inconsistent results.