Topological Laser-Induced Quantum States in Nanocluster Structures: Fundamental Effects and Possible Applications (Electrical and Optical)

Аракелян, С. М.; Khudaberganov, T. A.; Istratov, A. V.; Osipov, A.; Khorkov, K. S.

doi:10.1134/s0030400x19070038

Opt. Spectrosc.

2019

DOI: 10.1134/s0030400x19070038

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Topological Laser-Induced Quantum States in Nanocluster Structures: Fundamental Effects and Possible Applications (Electrical and Optical)

С. М. Аракелян

T. A. Khudaberganov

A. V. Istratov

et al.

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Cited by 7 publications

(2 citation statements)

References 24 publications

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Modeling of macroscopic quantum states in functional properties of the laser-induced 4D-topological nanoclusters in thin films on solid surface

et al. 2019

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Nanocluster structures can be easily modified in necessary direction and by controlled way in femto-nanophotonics experiments. The variation of the key topology parameters can result in new type of the quantum correlation states/size effect for charged particles.In our earlier experiments we studied laser-induced topological nanoclusters structures of different types in thin films with unique phenomena in electrophysics and optics (see [1][2][3]). A simple 2-steps mechanism for enhancement of quantum behavior (e.g. in electroconductivity) exists for different conditions. First, when inelastic length linelastic > acluster we have no incoherent electron-phonon (e-ph) scattering, i.e. the coherent process takes place. Second, when de Broglie wave length λdB ≡ ℓcoh > Ʌ, (aclustercluster size , Λspatial period of nanoparticle distribution) the coherent tunneling without loss occurs, and a long-range order with interference of the states takes place in the medium due to lattice structure.Several results of our modeling are shown in both Fig. 1-2 for a topology structures and Fig.3 for the Volt-Ampere characteristics. A) B) C) Fig.1. A) Deposition area for the channel of different shape: rectangular (a), triangular (b). B) Channel flow: with three triangular depressions at Re = 10 (a), Re = 100 (b), Re = 1000 (c); with one rectangular long shallow depression Re = 1000 (d); with four rectangular depressions Re = 1000 (e); with one rectangular Re = 100000 (f), where the Reynolds number ; medium density, kg/m 3 ;characteristic velocity, m/s; hydraulic diameter, m; dynamic viscosity of the medium, Pa·s or kg/(m·s). C) Graphs of the temperature field (left side) and the velocity field (right side) when the lower boundary is heating up to 500 °C (a), (b); and up to 300 °C (c), (d).

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confidence: 99%

“…In our earlier experiments we studied laser-induced topological nanoclusters structures of different types in thin films with unique phenomena in electrophysics and optics (see [1][2][3]). A simple 2-steps mechanism for enhancement of quantum behavior (e.g.…”

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confidence: 99%

Modeling of macroscopic quantum states in functional properties of the laser-induced 4D-topological nanoclusters in thin films on solid surface

et al. 2019

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Nanophysics in laser-induced cluster systems: topological quantum states in electrical conductivity and features of optical spectra—theory and experiment for dimensional effects

et al. 2020

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Room-temperature transitional transport in LaH10

Chu

2020

Chemical Physics Letters

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Topological Laser-Induced Quantum States in Nanocluster Structures: Fundamental Effects and Possible Applications (Electrical and Optical)

Cited by 7 publications

References 24 publications

Modeling of macroscopic quantum states in functional properties of the laser-induced 4D-topological nanoclusters in thin films on solid surface

Modeling of macroscopic quantum states in functional properties of the laser-induced 4D-topological nanoclusters in thin films on solid surface

Nanophysics in laser-induced cluster systems: topological quantum states in electrical conductivity and features of optical spectra—theory and experiment for dimensional effects

Room-temperature transitional transport in LaH10

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