B. V. Shishkin

601 total citations
36 papers, 441 citations indexed

About

B. V. Shishkin is a scholar working on Electrical and Electronic Engineering, Atomic and Molecular Physics, and Optics and Spectroscopy. According to data from OpenAlex, B. V. Shishkin has authored 36 papers receiving a total of 441 indexed citations (citations by other indexed papers that have themselves been cited), including 30 papers in Electrical and Electronic Engineering, 20 papers in Atomic and Molecular Physics, and Optics and 20 papers in Spectroscopy. Recurrent topics in B. V. Shishkin's work include Terahertz technology and applications (29 papers), Spectroscopy and Laser Applications (20 papers) and Photonic and Optical Devices (11 papers). B. V. Shishkin is often cited by papers focused on Terahertz technology and applications (29 papers), Spectroscopy and Laser Applications (20 papers) and Photonic and Optical Devices (11 papers). B. V. Shishkin collaborates with scholars based in Russia, Germany and Belarus. B. V. Shishkin's co-authors include Igor Ilyakov, Р. А. Ахмеджанов, S. B. Bodrov, М. И. Бакунов, G. Kh. Kitaeva, A. N. Stepanov, Е. В. Суворов, В. А. Миронов, N. Bityurin and Alexander Pikulin and has published in prestigious journals such as SHILAP Revista de lepidopterología, Applied Physics Letters and Optics Letters.

In The Last Decade

B. V. Shishkin

36 papers receiving 400 citations

Peers

B. V. Shishkin
G. Molis Lithuania
A. V. Muravjov United States
A. N. Stepanov Russia
M. Theuer Germany
William F. DiNatale United States
V.A. Andreeva Russia
A. Thoma Germany
Shunsuke Kono Japan
G. Torosyan Germany
Zhihui Lü China
G. Molis Lithuania
B. V. Shishkin
Citations per year, relative to B. V. Shishkin B. V. Shishkin (= 1×) peers G. Molis

Countries citing papers authored by B. V. Shishkin

Since Specialization
Citations

This map shows the geographic impact of B. V. Shishkin's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by B. V. Shishkin with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites B. V. Shishkin more than expected).

Fields of papers citing papers by B. V. Shishkin

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by B. V. Shishkin. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by B. V. Shishkin. The network helps show where B. V. Shishkin may publish in the future.

Co-authorship network of co-authors of B. V. Shishkin

This figure shows the co-authorship network connecting the top 25 collaborators of B. V. Shishkin. A scholar is included among the top collaborators of B. V. Shishkin based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with B. V. Shishkin. B. V. Shishkin is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
1.
Ilyakov, Igor, et al.. (2023). Nanopatterning of the dielectric surface by a pair of femtosecond laser pulses of different colors through a monolayer of microspheres. Optics Express. 31(8). 12423–12423. 2 indexed citations
2.
Bodrov, S. B., et al.. (2023). Cherenkov-Type Terahertz Generation by Long-Wavelength Ultrafast Laser Excitation of a GaP Crystal. Photonics. 10(12). 1309–1309. 1 indexed citations
3.
Ilyakov, Igor, B. V. Shishkin, E. S. Efimenko, S. B. Bodrov, & М. И. Бакунов. (2022). Experimental observation of optically generated unipolar electromagnetic precursors. Optics Express. 30(9). 14978–14978. 27 indexed citations
4.
Pikulin, Alexander, et al.. (2022). Edge effect at the microsphere colloidal array in near-field particle lithography on polymer surfaces. Surfaces and Interfaces. 29. 101735–101735. 3 indexed citations
5.
Ilyakov, Igor, B. V. Shishkin, Д. С. Пономарев, et al.. (2021). Efficient optical-to-terahertz conversion in large-area InGaAs photo-Dember emitters with increased indium content. Optics Letters. 46(14). 3360–3360. 11 indexed citations
6.
Ilyakov, Igor, B. V. Shishkin, S. B. Bodrov, et al.. (2020). Highly sensitive electro-optic detection of terahertz waves in a prism-coupled thin LiNbO 3 layer. Laser Physics Letters. 17(8). 85403–85403. 4 indexed citations
7.
Egorov, S. V., Igor Ilyakov, B. V. Shishkin, et al.. (2018). Low loss MgAl2O4 ceramics for terahertz windows. SHILAP Revista de lepidopterología. 187. 1004–1004. 3 indexed citations
8.
Ilyakov, Igor, G. Kh. Kitaeva, B. V. Shishkin, & Р. А. Ахмеджанов. (2017). Electro-optic sampling of terahertz waves by laser pulses with an edge-cut spectrum in birefringent crystal. Optics Letters. 42(9). 1704–1704. 12 indexed citations
9.
Пономарев, Д. С., Р. А. Хабибуллин, A. E. Yachmenev, et al.. (2017). Terahertz radiation in In0.38Ga0.62As grown on a GaAs wafer with a metamorphic buffer layer under femtosecond laser excitation. Semiconductors. 51(4). 509–513. 14 indexed citations
10.
Ilyakov, Igor, G. Kh. Kitaeva, B. V. Shishkin, & Р. А. Ахмеджанов. (2016). Terahertz time-domain electro-optic measurements by femtosecond laser pulses with an edge-cut spectrum. Optics Letters. 41(13). 2998–2998. 9 indexed citations
11.
Ilyakov, Igor, G. Kh. Kitaeva, B. V. Shishkin, & Р. А. Ахмеджанов. (2015). Terahertz wave electro-optic measurements with optical spectral filtering. Applied Physics Letters. 106(12). 8 indexed citations
12.
Bredikhin, V. I., Alexander Pikulin, Igor Ilyakov, et al.. (2015). Two-color beam improvement of the colloidal particle lens array assisted surface nanostructuring. Applied Physics Letters. 106(18). 19 indexed citations
13.
Ilyakov, Igor, et al.. (2015). Generation of terahertz radiation at optical breakdown of air: The dependence of the optimal phase shift between the components of a two-color laser pulse on their intensity. Journal of Experimental and Theoretical Physics Letters. 101(2). 74–78. 4 indexed citations
14.
Ilyakov, Igor, G. Kh. Kitaeva, B. V. Shishkin, & Р. А. Ахмеджанов. (2014). Laser pulse amplitude changes induced by terahertz waves under linear electro-optic effect. Applied Physics Letters. 104(15). 9 indexed citations
15.
Суворов, Е. В., et al.. (2012). Terahertz emission from a metallic surface induced by a femtosecond optic pulse. Optics Letters. 37(13). 2520–2520. 37 indexed citations
16.
Ахмеджанов, Р. А., et al.. (2011). On the Peculiarities of THz Radiation Generation in a Laser Induced Plasmas. Journal of Infrared Millimeter and Terahertz Waves. 32(10). 1243–1252. 12 indexed citations
17.
Kitaeva, G. Kh., Sergey Kovalev, I. I. Naumova, et al.. (2010). A new method of terahertz detection: Probe-energy electro-optic sampling. 43841. 1–2. 4 indexed citations
18.
Ахмеджанов, Р. А., et al.. (2009). Generation of terahertz radiation by the optical breakdown induced by a bichromatic laser pulse. Journal of Experimental and Theoretical Physics. 109(3). 370–378. 15 indexed citations
19.
Bodrov, S. B., A. N. Stepanov, М. И. Бакунов, et al.. (2009). Highly efficient optical-to-terahertz conversion in a sandwich structure with LiNbO_3 core. Optics Express. 17(3). 1871–1871. 66 indexed citations
20.
Ахмеджанов, Р. А., et al.. (2009). Plasma mechanisms of pulsed terahertz radiation generation. Radiophysics and Quantum Electronics. 52(7). 482–493. 18 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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