Скорость дрейфа частоты хоровых ОНЧ излучений в магнитосфере Земли: аналитические оценки и сравнение с наблюдениями

We compare analytical estimates of the frequency drift rate of very-low-frequency (VLF) chorus emissions, which were obtained within the framework of existing theoretical models, with each other and with the experimental data. It is shown that the estimate within the framework of the theory of the magnetospheric backward wave oscillator (BWO), which is based on the assumption about the development of the sideband instability of the initial quasi-monochromatic wave, systematically differs by almost 2 times from the estimates obtained when searching for the maximum nonlinear growth rate of the instability of a wave with a changing frequency (within the framework of the model of nonlinear resonant currents). For the considered observations of the chorus emissions, the estimate based on the BWO model agrees better with the experiment. A modification of the model of nonlinear resonance currents is proposed, which is based on the introduced dependence of the parameters of the "electron hole'' in the phase space on the frequency drift rate. This modification allows us to bring the results of this model closer to the results of the BWO model and the data of the observations considered.