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71.
Investigation of Heating of Optical Elements During Formation of High-Power CW Fiber Laser Radiation
Nosov P. A. Shirankov A. F. Khorokhorov A. M. Zaytsev K. I. Yurchenko S. O. 《Russian Physics Journal》2019,61(12):2305-2312
Russian Physics Journal - The problem of heating of optical components during the formation of the high-power continuous-wave fiber laser radiation is considered. The results of experimental... 相似文献
72.
This paper reports the result of investigation into Richtmyer–Meshkov instability (RMI) resulting from multiple interactions
of shock waves with the interface between two media of different densities. The instability growth rates were measured after
the interactions of the mixing zone with the refracted shock and the first and the second shocks reflected from the endwall.
It was shown that for the contribution of separate shock–interface interactions to the instability growth rate, the condition
of additivity is not realized. The values of the factor , accounting for the decrease in the RMI growth rate due to the thickening of the mixing zone, have been determined for a
continuous interface and for a turbulent mixing zone.
Received 27 January 1998 / Accepted 10 June 1998 相似文献
73.
G.M. Katyba K.I. Zaytsev I.N. Dolganova N.V. Chernomyrdin V.E. Ulitko S.N. Rossolenko I.A. Shikunova V.N. Kurlov 《Progress in Crystal Growth and Characterization of Materials》2021,67(3):100523
Sapphire shaped crystals are considered as a favorable material platform of the terahertz (THz) waveguide and fiber optics. Unique physical properties of sapphire, along with advantages of the Edge-defined Film-fed Growth (EFG) technique, yield fabrication of the THz waveguides and fibers with a complex cross-section geometry directly from the Al2O3-melt, where no labour-intensive mechanical processing is required. Wide variability of the as-grown sapphire shaped crystal geometries yields different physical mechanisms of electromagnetic waveguidance. In this review, recent advantages in the THz waveguides and fibers based on the EFG-grown sapphire shaped crystals are discussed. While possessing moderate THz-wave absorbtion and quite high dispersion, flexible sapphire fibers with a simple step-index cross-section geometry yield strong confinement of guided modes in a fiber core due to a high refractive index of sapphire in the THz range. This effect opens novel opportunities of sapphire fibers in high-resolution THz imaging, using the principles of either scanning-probe near-field optical microscopy or optical fiber bundles. In turn, antiresonant and photonic crystal hard hollow-core waveguides demonstrate advanced optical performance, along with wide capabilities in THz endoscopy and sensing in harsh environments. This review highlights that the EFG-grown sapphire shaped crystals hold strong potential in different branches of THz optics. 相似文献
74.
75.
Moscow University Chemistry Bulletin - We study the effect of surfactants having a different charge and length of the hydrocarbon radical on the intensity and kinetic laws of the model... 相似文献
76.
77.
78.
V. A. Zaytsev M. E. Groshev I. A. Maltsev A. V. Durova V. M. Shabaev 《International journal of quantum chemistry》2024,124(1):e27232
We investigate the possibility to calculate the ground-state energy of the atomic systems on a quantum computer. For this purpose we evaluate the lowest binding energy of the moscovium atom with the use of the iterative phase estimation and variational quantum eigensolver (VQE). The calculations by the VQE are performed with a disentangled unitary coupled cluster ansatz and with various types of hardware-efficient ansatze. The optimization is performed with the use of the Adam and quantum natural gradients procedures. The scalability of the ansatze and optimizers is tested by increasing the size of the basis set and the number of active electrons. The number of gates required for the iterative phase estimation and VQE is also estimated. 相似文献
79.
80.
V. Ch. Zhukovsky V. D. Krevchik M. B. Semenov P. V. Krevchik R. V. Zaytsev I. A. Egorov 《Moscow University Physics Bulletin》2016,71(6):545-555
The field and temperature dependence of the probability of two-dimensional dissipative tunneling is studied in the framework of one-instanton approximation for a model double-well oscillator potential in an external electric field at finite temperature with account for the influence of two local phonon modes for quantum dots in a system of a combined atomic force and a scanning tunneling microscope. It is demonstrated that in the mode of synchronous parallel transfer of tunneling particles from the cantilever tip to the quantum dot the two local phonon modes result in the occurrence of two stable peaks in the curve of the 2D dissipative tunneling probability as a function of the field. Qualitative comparison of the theoretical curve in the limit of weak dissociation and the experimental current–voltage characteristic for quantum dots that grow from colloidal gold under a cantilever tip at the initial stage of quantum-dot formation when the quantum dot size does not exceed 10 nm is performed. It is established that one of the two stable peaks that correspond to interaction of tunneling particles with two local phonon modes in the temperature dependence of the 2D dissipative tunneling probability can be split in two, which corresponds to the tunneling channel interference mechanism. It is found that the theoretically predicted and experimentally observed mode of quantum beats occurs near the bifurcation point. 相似文献