1. Bradley, M. and Droney, C.K., Subsonic Ultra Green Aircraft Research: Phase I Final Report, Contractor Report no. 2011-216847, Washington: NASA, 2011, URL: https://ntrs.nasa.gov/citations/20110011321.

2. Kalenskii, S.M., Morzeeva, T.A., and Ezrokhi, Yu.A., Investigation of Ways to Increase the Fuel Efficiency of SU Civil Aviation Aircraft in the 2030s by Choosing a Rational Schematic and Technical Appearance of Engines of Unconventional Schemes, Sbornik tezisov dokl. Vseros. nauchno-tekhn. Konf. “Aviadvigateli XXI veka” (Coll. of Theses of the All-Russian Scientific and Technical Conf. “Aircraft Engines of the XXI Century“), Moscow: CIAM. 2015.

3. Kalenskii, S.M., Morzeeva, T.A., and Ezrokhi, Yu.A., Silovye ustanovki netraditsionnykh skhem dlya perspektivnykh magistral’nykh samoletov novogo pokoleniya (Power Plants of Unconventional Schemes for Promising New Generation Mainline Aircraft), Moscow: TsIAM, 2019.

4. Ezrokhi, Yu.A., Modeling of the Engine and Its Components, in Mashinostroenie: entsiklopediya (Mechanical Engineering: Encyclopedia), in 40 vol., Moscow: Mashinostroenie, 2010, vol. 4-21, Samolety i vertolety (Airplanes and Helicopters), book 3, Aviatsionnye dvigateli (Aviation Engines), pp. 341–353.

5. Belousov, A.I. and Sapozhnikov, A.Yu., Synthesis of Basic Structural Design of Aircraft GTE Based on Genetic Algorithms, Izv. Vuz. Av. Tekhnika, 2015, vol. 58, no. 2, pp. 60–64 [Russian Aeronautics (Engl. Transl.), vol. 58, no. 2, pp. 199–204].