No. 1

PHYSICS
S.A. Chivilikhin, V.V. Gusarov, I.Yu. Popov
Flows in nanostructures: hybrid classical-quantum models 7
S.P. Bardakhanov, S.A. Novopashin, M.A. Serebrjakova
Investigations of heat conductivity of nanofluids based on aluminum oxide nanoparticles 27
M.B. Belonenko, A.S. Sasov, A.V. Alpatov
Bound states in birefringent crystals doped with two-level atoms 34
A.A. Biryukov, M.A. Shleenkov
The Influence Functional approach for a description of the nanosystems dynamics 42
А.N. Bugay*
Interaction of terahertz radiation with DNA 51
R.Kh. Gainutdinov, M.A. Khamadeev, E.V. Zajtseva, M.Kh Salakhov
Photon density of states in optical nanomaterials and control of energy levels of atoms 56
S.Yu. Glazov, N.E. Mescheryakova
The high harmonic generation оn superlattices based on graphene at the presence of a uniform electric field 64
G.I. Garnaeva, L.A. Nefediev, E.N. Ahmedshina
Management of occurrence time an Shtarkovsky echo in nanogamut by of mutual orientation of gradients of electric fields variation 71
V.E. Zalizniak, O.A. Zolotov
Universal interatomic potential for pure metals 76
G.P. Miroshnichenko, A.A. Sotnikova
Errors in “the sifted” quantum key while transmissing via single-mode stochastic anisotropic inhomogeneous fiber 87
G.P.Miroshnichenko, A.I. Trifanov
Microscopic discrete model of nonideal photodetector 93
L.A. Nefediev, E.I. Nizamova, S.V. Taktaeva
The influence of uncorrelation of inhomogeneously broadening on formation of transitive optical processes in three-level nano-gates system 101
L.A. Nefediev, A.R. Sakhbieva
Coding information in nano-time intervals between the exciting laser pulses in optical echo processor 109
S.S. Ozhenko, E.V. Kazantseva, A.I. Maimistov
Ultrashort pulse propagation in ferroelectric modeled by the fifth-order Duffing model 117
D.D. Sukachev, A.V. Sokolov, N.N. Kolachevsky, E.S. Kalganova, A.V. Akimov, V.N. Sorokin
Sub-Doppler laser cooling of thulium atoms in a magneto-optical trap and trapping thulium atoms in a magnetic trap with low gradient of magnetic field. 125

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2 responses to No. 1


  1. Could you explain the significance of investigating heat conductivity in nanofluids based on aluminum oxide nanoparticles? Visit us Telkom University

  2. I believe you have mentioned some very interesting points, thanks for the post.

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