1. Gorshkov, O.A., Muravlev, V.A., and Shagaida, A.A., Khollovskie i ionnye plazmennye dvigateli dlya kosmicheskikh apparatov (Hall and Ion Plasma Thrusters for the Spacecraft), Moscow: Mashnostroenie, 2008.

2. Kozubskii, K.N., Murashko, V.M., and Rylov, Yu.P., SPT Operates in Space, Fizika Plazmy, 2003, vol. 29, no. 3, pp. 277–292.

3. Kim, V.P., Nadiradze, A.B., Popov, G.A., Khodnenko, V.P., and Shishkin, G.G., Problems of EPT application at the Spacecrafts, in Model’ kosmosa (Space Model), Moscow: Knizhnyi dom Universitet, 2007, vol. 2: Vozdeistvie kosmicheskoi sredy na materialy i oborudovanie kosmicheskikh apparatov (Space Environment Impact to the SC Materials and Equipment), Novikov, L.S., Ed., pp. 615–659.

4. Korsun, A.G., Tverdokhlebova, E.M., Novikov, G.I., Markelova, T.S., Astashkin, A.A., and Nadiradze, A.B., How to Protect Spacecrafts Against Electrical and Physical Impacts, in Sistemnaya ballistika i effektivnost' kosmicheskikh sistem distantsionnogo zondirovaniya Zemli (System Ballistic and Efficiency of Space Systems for the Earth Remote Probing), Raikunov, G.G., Ed., Moscow: ZAO NII ENTsITEKh, 2012.

5. Khodnenko, V.P., Impact of Stationary Plasma Thrusters on “Electro-M” and “Electro-M1” Satellites Operability, Voprosy Elektromekhaniki. Trudy VNIIEM, 2018, vol. 164, no. 3, pp. 44–46.