A Novel Method to Identify the Physical Mechanism and Source Region of ELF/VLF Waves Generated by Beat-Wave Modulation Using Preheating Technique

Guo, Zhe and Fang, Hanxian and Honary, Farideh (2021) A Novel Method to Identify the Physical Mechanism and Source Region of ELF/VLF Waves Generated by Beat-Wave Modulation Using Preheating Technique. Physics, 7 (2): 43. ISSN 2624-8174

[thumbnail of universe-07-00043 (1)]
Text (universe-07-00043 (1))
universe_07_00043_1_.pdf - Published Version
Available under License Creative Commons Attribution.

Download (1MB)

Abstract

One of the most important effects of ionospheric heating by HF (high-frequency) waves is the generation of ELF/VLF (extremely low-frequency/very low-frequency) waves by modulated heating. An important limitation of amplitude modulation (AM) is its dependence on ionospheric electrojet, which means to achieve better modulation effect, some strict spatio-temporal conditions must be met. To solve this problem, some possible methods have been proposed including beatwave (BW) modulation. However, due to the controversy of its mechanism and the source region of the stimulated ELF/VLF waves, it is not clear whether it is an electrojet-independent method or not, which has become one of the hot topics in recent years. In this paper, we found that the effect of preheating on modulation efficiency of BW based on different theories is the opposite. We suppose the opposite character of the influence and effect on the efficiency of BW in D region and F region as a base for a novel method to identify the physical mechanism and source region of BW. This method can be feasible to solve the controversy of BW. The feasibility of this method is verified by simulation results in the paper.

Item Type:
Journal Article
Journal or Publication Title:
Physics
Subjects:
?? modulated heatingbeat-wave modulationelectrojet-independentthermal nonlinearityponderomotive nonlinearity ??
ID Code:
151878
Deposited By:
Deposited On:
19 Feb 2021 12:06
Refereed?:
Yes
Published?:
Published
Last Modified:
15 Oct 2024 23:20