H. Burch scite author profile

During the solar eclipse of 21 August 2017, the University of Florida monitored very low frequency (3–30 kHz) radio activity at ten locations, enabling the remote sensing of the D region ionosphere (∼50‐ to 100‐km altitude). Two of the locations were far enough away (Antarctica) that no response to the eclipse was detected despite the fact that the eclipse significantly shadowed the transmitter. A particularly rare observation is presented: Three receivers were at locations where the Moon blocked at least some of the solar X‐ray flare that occurred near 1800 UT, providing high‐resolution observations of solar flare occultation by the Moon. The remainder of the sites registered meaningful responses to both the solar eclipse and the solar flare. Observations indicate that very low frequency signal propagation is affected once 30–55% obscuration is achieved anywhere along the propagation path. No long‐term or delayed effects, such as atmospheric gravity waves, were observed.

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The Relationship Between “Large” Early/Fast VLF Events and Modal Propagation Nulls

Burch

Moore

2022

IEEE Trans. Geosci. Remote Sensing

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H. Burch

Experimental Generation of ELF Radio Signals Using a Rotating Magnet

The D Region Response to the August 2017 Total Solar Eclipse and Coincident Solar Flare

The Relationship Between “Large” Early/Fast VLF Events and Modal Propagation Nulls

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