1. Alekseev, A.S., Glinskii, B.M., Imomnazarov, Kh.Kh., et al., Monitoring the Geometry and Physical Properties of the “Surface” and “Source” Dilatancy Zones using the Method of Vibroseismic Sounding of Seismically Active Crustal Regions, in Izmenenie okruzhayushchei sredy i klimata, prirodnye i svyazannye s nimi tekhnogennye katastrofy (Environmental and Climatic Trends. Natural and Related Technogenic Catastrophes), Laverov, N.P., Ed., Moscow: IFZ RAN, 2008, vol. 1, pp. 179–222.
2. Amand, P.S., Two Proposed Measures of Seismicity, Bull. Seismol. Soc. Am.,; 1956, vol. 46, no. 1, pp. 41–45.
3. Avagimov, A.A., Zeigarnik, V.A., and Novikov, V.A., On the Formation Mechanism of Induced Seismicity Caused by Electromagnetic Impact, in Fizicheskie osnovy prognozirovaniya razrusheniya gornykh porod (Physical Background of Rock Failure Prediction), Mansurov, V.A., Ed., Krasnoyarsk, 2002, pp. 138–144.
4. Barsukov, O.M., Solar Flares, Sudden Commencements and Earthquakes, Fiz. Zemli, 1991, no. 12, pp. 93–97.
5. Benioff, V.H., Global Strain Accumulation and Release as Revealed by Great Earthquakes, Bull. Geol. Soc. Am., 1951, vol. 62, no. 4, pp. 331–338.