Seçilmiş elmi əsərləri

  1. F.A. Rustamov. Two-level model of recording and reading of volume phase holograms in photorefractive crystals of BSO- type. Opt. Quantum Electron., v.23, p.613-619, 1991.
  2. F.A. Rustamov, F.N. Gadjiev. Exact solution of the stationary holographic four-wave mixing in photorefractive crystals: two-level model. Opt. Quantum Electron., v.24, p.1165-1172, 1992.
  3. F.A. Rustamov. Two-level model of recording and reading of holographic gratings in photorefractive crystals: nonstationary case. Opt. Quantum. Electron., v.25, p.351-358, 1993.
  4. F.A. Rustamov. The amplitude and phase of a transmission holographic grating due to four-wave interaction in a photorefractive medium. Opt. Quantum Electron., v.27, p.117-125, 1995.
  5. F.A. Rustamov, E.A. Sadykhov. Positive and negative feedback effects of four-wave mixing in photorefractive crystals with two active centers. Opt. Quantum Electron., v.27, p.249-259 1995.
  6. F.A. Rustamov. Positive feedback effect in four-wave mixing in photorefractive crystals with absorption. Opt. Quantum Electron., v.27, p.239-248, 1995.
  7. F.A. Rustamov. Dynamic effects in photorefractive crystals at simultaneous read-write of holographic gratings. Opt. Quantum Electron., v.32, p.1069-1079, 2000.
  8. F.A. Rustamov, S.R. Muradov, V.K. Sharbatov. A single analytic solution for transient simultaneous four-wave mixing in photorefractive crystals. Opt. Commun., v. 201, p.191-196, 2002.
  9. F.A. Rustamov, S.R. Muradov, V.Kh. Sharbatov. Control of the energy exchange upon double two-wave mixing in photorefractive crystals Phys. Solid State, v.49, No. 3, pp. 431-436, 2007.
  10. F.A. Rustamov, M.Z. Mamedov, N.H. Darvishov, , S.R. Muradov, E.Y. Bobrova. Prepatation and photoluminescence in p-type macroporous silicon.ANAS, Transactions. 2009, v.XXIX, No. 5, pp.132-135.
  11. F.A. Rustamov, N.H. Darvishov, M.Z. Mamedov, E.Y. Bobrova, H.O. Qafarova. Influence of acetic acid on the process of stain porous silicon formation at oxidant insufficiency. Azerb. J. Phys. 16, No. 3-4, 2010, pp. 89-91.
  12. F.A. Rustamov, N.H. Darvishov, M.Z. Mamedov, E.Y. Bobrova, H.O. Qafarova. Porous silicon bandgap broadening at natural oxidation. J. Lumin. 131, 2011, pp. 2078 - 2082
  13. F.A. Rustamov, N.H. Darvishov, M.Z. Mamedov, E.Y. Bobrova, H.O. Qafarova. Formation of lateral homogeneous stain etched porous silicon with acetic acid at oxidant insufficiency. Azerb. J. Phys. 18, No. 3, 2012, pp. 44 - 49
  14. F.A. Rustamov, N.H. Darvishov, V.E. Bagiev, M.Z. Mamedov, E.Y. Bobrova, H.O. Qafarova. Influence of final treatment on the incubation period and antireflection properties of stain etched porous silicon. Phys. Status Solidi A. 210, No. 10, 2013, pp. 2174 - 2177.
  15. F.A. Rustamov, N.H. Darvishov, V.E. Bagiev, M.Z. Mamedov, E.Y. Bobrova, H.O. Qafarova. Determination of size and bandgap distributions of Si nanoparticles from photoluminescence excitation and emission spectra in n-type stain etched porous silicon. J. Lumin. 154, 2014, pp.224–228.
  16. F.A. Rustamov, N.H. Darvishov, V.E. Bagiev, M.Z. Mamedov, G.M. Eyvazova, E.Y. Bobrova, H.O. Qafarova. Reversible quenching of photoluminescence in stain etched porous silicon at HNO3posttreatment and role of oxygen bonds. Journal of Luminescence. 195 (2018) 49-53.
  17. IsikM.,Hasanli N.M.,Rustamov F.A., Determination mechanical properties of Bi12TiO20 crystals by nanoindentation.,  Materials Science in semiconductor processing, vol.140, 2022 ,   doi.10.1016/j.mssp.2021.106389