ELF/VLF Communication Experiment by Modulated Heating of Ionospheric Auroral Electrojet at EISCAT

Abstract

Amplitude modulation high-frequency (HF) radio waves at extremely low frequencies (ELF, 0.3-3 kHz) or very low frequencies (VLF, 3-30 kHz), heating the ionosphere, can nonlinearly modulate the auroral electrojet to produce ELF/VLF waves for long-distance communication. This article presents the results of the first ELF/VLF communication experiments being conducted at Tromsø, where the European Incoherent Scatter Scientific Association (EISCAT) HF facility is located. The ELF/VLF waves from the ionosphere are modulated by quaternary phase shift keying (QPSK) and used for communication. The ELF signals of 2017 Hz at 20 and 100 b/s, as well as VLF signals of 3517 Hz at 20, 100, and 400 b/s, received by a ground-based receiver (15 km away from the heater) were decoded, albeit with a high bit error rate (BER) for 3517 Hz at 20 b/s. With the decoding principle of QPSK, we attempted to find a solution to reduce the BER for future communication experiments. Based on the results of the ground experiment, the transmitted signals of 2017 Hz at 20 b/s were selected in the China Seismo-Electromagnetic Satellite (CSES) reception experiments. In a first, we demonstrate that ELF communication signals generated by the amplitude modulation heating of the ionosphere have been successfully received by the satellite and the ground-based receiver. These experimental results confirm that the ELF/VLF waves radiated by amplitude modulation heating of the auroral electrojet can be used for long-distance communication in future.