Search Results - "Kuzmin, P. G."

Influence of external magnetic field on laser-induced gold nanoparticles fragmentation by Serkov, A. A., Rakov, I. I., Simakin, A. V., Kuzmin, P. G., Shafeev, G. A., Mikhailova, G. N., Antonova, L. Kh, Troitskii, A. V., Kuzmin, G. P.

“…Laser-assisted fragmentation is an efficient method of the nanoparticles size and morphology control. However, its exact mechanisms are still under…”
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Control of the Directional Pattern of Multielement Plasma Vibrator Antennas by Tikhonevich, O. V., Vekchin, Y. E., Minaev, I. M., Kuzmin, G. P., Rukhadze, A. A.

“…This paper presents an analysis on the possibilities of controlling the radiation pattern of Yagi-type multielement plasma vibrator antennas. The plasma…”
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Application of gold nanoparticles produced by laser ablation for immunochromatographic assay labeling by Urusov, A.E., Petrakova, A.V., Kuzmin, P.G., Zherdev, A.V., Sveshnikov, P.G., Shafeev, G.A., Dzantiev, B.B.

“…Nanodispersed gold is widely used as a marker in different analytical systems. For such purposes, it is usually obtained by the reduction of salts. This work…”
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Laser-induced agglomeration of gold nanoparticles dispersed in a liquid by Serkov, A.A., Shcherbina, M.E., Kuzmin, P.G., Kirichenko, N.A.

“…•Pulsed laser irradiation of dense gold nanoparticles colloidal solution can result in their agglomeration.•Gas bubbles in-phase pulsation induced by laser…”
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Laser-assisted fragmentation of Al particles suspended in liquid by Kuzmin, P.G., Shafeev, G.A., Serkov, A.A., Kirichenko, N.A., Shcherbina, M.E.

“…Laser-assisted fragmentation of Al micro- and nano-particles in liquid is studied both experimentally and theoretically. Modeling of the evolution of size…”
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Control of the Development Rate of the Incomplete Stage of the Discharge Sliding on the Dielectric Surface by Grudiev, E. I., Kuzmin, G. P., Minaev, I. M., Tikhonevich, O. V.

“…The possibility of controlling the development rate of the incomplete staged of the discharge sliding over a solid dielectric surface is experimentally shown…”
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Laser-assisted generation of gold nanoparticles and nanostructures in liquid and their plasmonic luminescence by Barmina, E. V., Shafeev, G. A., Kuzmin, P. G., Serkov, A. A., Simakin, A. V., Melnik, N. N.

“…Nanoparticles (NPs) and surface nanostructures (NS) are produced via laser ablation of a bulk gold target in liquid using second harmonics of 10 ps Nd:YAG…”
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Effect of the preparation method of silver and gold nanoparticles on the photosensitizing properties of tetraphenylporphyrin–amphiphilic polymer—nanoparticle systems by Aksenova, N. A., Savko, M. A., Uryupina, O. Ya, Roldugin, V. I., Timashev, P. S., Kuz’min, P. G., Shafeev, G. A., Solov’eva, A. B.

“…The ranges of concentrations of silver and gold nanoparticles in which the rate constants of the test for the photodynamic therapy (PDT) reaction of oxidation…”
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Development of the plasma channel of a plasma dipole antenna created by the radiation of a transmitter by Konovalov, V. N., Kuz’min, G. P., Minaev, I. M., Rukhadze, A. A., Tikhonevich, O. V.

“…Characteristics of the plasma layer (a plasma antenna of dipole type), excited by the radiation of a transmitter such as the carrier density distribution over…”
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Reflector plasma array antennas by Kuz’min, G. P., Minaev, I. M., Rukhadze, K. Z., Tarakanov, V. P., Tikhonevich, O. V.

“…A reflector plasma array antenna is investigated. A plasma array with a controlled pattern is created with the help of a discharge creeping over a dielectric…”
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Laser surgical apparatus for precision tissue dissection, with the possibility of controlled hemostasis by Tikhonevich, O. V., Sirotkin, A. A., Kuzmin, G. P., Gorbatova, N. E.

“…In this work, we present a laser surgical apparatus for precision dissection of tissues, with the possibility of controlled hemostasis, without thermal damage…”
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Development of a laser medical device for the selective removal of pathological vascular by Tikhonevich, O. V., Sirotkin, A. A., Gorbatova, N. E., Kuzmin, G. P., Remennikova, M. V., Seleznev, D. A.

“…A laser medical device based on a system of laser diodes with a wavelength of 520-524 nm and a power of more than 3 W has been developed. The operating mode is…”
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Self-organization of hydrogen gas bubbles rising above laser-etched metallic aluminum in a weakly basic aqueous solution by Barmina, E V, Kuzmin, P G, Shafeev, G A

“…Self-organization of hydrogen bubbles is reported under etching of metallic Aluminum in a weakly basic solution. The ascending gas bubbles drift to the areas…”
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Self-organization of ascending-bubble ensembles by Barmina, E V, Kirichenko, N A, Kuzmin, P G, Shafeev, G A

“…Self-organization of hydrogen bubbles generated by laser-treated areas of an aluminum plate etched in a basic aqueous solution of ammonia is studied…”
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The use of the multi-wave laser medical device "Livadia" for the treatment of inflammation of the epithelial pilonidal cyst in children and adults by Tikhonevich, O. V., Sirotkin, A. A., Kuzmin, G. P., Gorbatova, N. E., Brynsev, A. V., Dvornikova, M. A., Kuzmina, A. G., Kurilov, V. P.

“…The multi-wave laser medical device "Livadia" for bactericidal and therapeutic effects on the affected areas of the body was developed at the A.M. Prokhorov…”
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Laser-induced agglomeration of gold and silver nanoparticles dispersed in liquid by Serkov, A.A., Kuzmin, P.G., Shafeev, G.A.

“…•Picosecond laser exposure leads to formation of elongated Au–Ag NPs.•Laser-induced fragmentation is followed by NPs agglomeration in form of…”
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Plasma channel created by ionization of gas by a surface wave by Konovalov, V. N., Kuz’min, G. P., Minaev, I. M., Rukhadze, A. A., Tikhonevich, O. V.

“…Conditions for gas ionization in the field of a slow surface wave excited by a microwave source are considered. The gas ionization rate and the plasma density…”
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Self-assembly of nanoparticles into nanowires under laser exposure in liquids by Serkov, A.A., Barmina, E.V., Kuzmin, P.G., Shafeev, G.A.

“…•Self-assembly of NPs was demonstrated under different experimental conditions.•Excessive electric charge is present in the colloidal solution during laser…”
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Influence of external magnetic field on laser breakdown plasma in aqueous Au nanoparticles colloidal solutions by Serkov, A. A, Rakov, I. I, Simakin, A. V, Kuzmin, P. G, Mikhailova, G. N, Antonova, L. Kh, Troitskii, A. V, Kuzmin, G. P, Shafeev, G. A

“…Influence of permanent magnetic field up to 7.5 T on plasma emission and laser-assisted Au nanoparticles fragmentation in water is experimentally studied. It…”
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Multifactor analysis in laser fluorescence diagnostics by Aleksandrov, M. T., Vasil’ev, E. N., Lebedev, A. V., Kuz’min, G. P., Khokhlov, E. M., Voropaeva, M. I.

“…Fluorescence spectra induced by a He-Ne laser in a complex biological medium (blood plasma) are studied. The statistical analysis of the spectra reveals…”
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