Results from targeted TLE and geomagnetically conjugate sprites observations from the International Space Station during the Rakia mission

Yoav Yair; Colin Price; Yuval Reuveni; Roy Yaniv; Eliah Sao Sabbas; Lior Rubanenko

doi:https://doi.org/10.5194/egusphere-egu22-2485

[Back] [Session NH1.5]

EGU22-2485

https://doi.org/10.5194/egusphere-egu22-2485

EGU General Assembly 2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Results from targeted TLE and geomagnetically conjugate sprites observations from the International Space Station during the Rakia mission

Yoav Yair¹, Colin Price², Yuval Reuveni³, Roy Yaniv¹, Eliah Sao Sabbas⁴, and Lior Rubanenko⁵

Yoav Yair et al.

¹Reichman University (IDC) Herzliya, Herzliya, Israel (yoav.yair@idc.ac.il)
²Tel-Aviv University, Tel-Aviv, Israel
³Ariel University, Israel
⁴INPE, Brazil
⁵Stanford, US

The Rakia mission is a private space flight to the ISS, that was executed by the Axiom company in March 2022. The ILAN-ES (Imaging of Lightning And Nocturnal Emissions from Space) is heritage of the MEIDEX conducted on board the space shuttle Columbia in its final mission in January 2003 (Yair et al., 2004). We optimized the limited observation time (2 hours, 12x10 minutes) from the ISS such that only selected targets at prescribed times were imaged by the astronaut. We used an upgraded prediction procedure for potential TLE-producing thunderstorms, based on the verification scheme used during the THOR campaign (Chanrion et al., 2016), and by using the lightning location networks (WWLLN, ENTLN) data for selected active regions. In addition, we computed their magnetic conjugate points, so as to enlarge potential daily targets (geomagnetically conjugate sprites were never recorded from space; Marshal et al., 2005).

The camera used during ILAN-ES was a Nikon D6 set at 6400 ISO and recording 24 frames per second at 1920 x 1080 pixels. It was mounted with a 58mm/f1.2 lens, giving a 34.4^o x 19.75^o field of view corresponding to 1.07’/pixel. With these settings, the camera resolution was 130 m at nadir. The camera The astronauts operated the camera from the Copula window of the ISS while visually tracking lightning activity and directing the camera towards the bright flashes. When conjugate targets were allocated, the aim was to conduct nadir viewing.

To overcome the challenge of manual detection of lightning and transient luminous events in the video footage, we will harness several Machine Learning (ML) and Deep Learning (DL) techniques. A comprehensive ground-based campaign accompanied the ISS observations, most notably by the ground-based LEONA network in South America and by schools in Ghana, Rwanda and Zimbabwe.

This presentation will discuss mission operations and the results of the ISS and ground observations.

How to cite: Yair, Y., Price, C., Reuveni, Y., Yaniv, R., Sao Sabbas, E., and Rubanenko, L.: Results from targeted TLE and geomagnetically conjugate sprites observations from the International Space Station during the Rakia mission, EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-2485, https://doi.org/10.5194/egusphere-egu22-2485, 2022.