НАУЧНАЯ БИБЛИОТЕКА Томского государственного университета

Articles published by TSU authors in 2019 (according to Web of Science as of 01.02.2020)

TSU Research Library Bibliographic Information Center staff made a list of highly cited and hot (most popular) papers published by TSU authors in 2019. As of 01.02.2020 the Web of Science Core Collection citation database contains 1905 papers by Tomsk State University researchers published in 2019. By now these papers have been cited 1425 times which is very good for recently published papers.

Papers by TSU authors on physics, chemistry, engineering, biology, ecology and geosciences are in the list of the most popular and highly cited papers. Articles by Georgy Shelkov, a research scholar of the Research and Development Center “Advanced Technologies in Microelectronics”, by Alexandre Vaniachine and Alexander Khodinov, research scholars of the Laboratory of high energy physics data analysis, as part of the international ATLAS (Large Hadron Collider) collaboration, and by Mikhail Sheremet, a head of the scientific research laboratory of convective heat and mass transfer processes modelling, are in the top by citations worldwide.

The list of highly cited and hot (most popular) papers published by TSU authors in 2019 was made using Essential Science Indicators, a special tool designed to work with most-cited papers. Publications that annually perform in the top 1 % based on the number of citations received in each of 22 fields of Web of Science are called Highly Cited Papers. Publications that perform in the top 0,1% of the world ranking for the last two years (in ESI fields) are called Hot Papers.

In the list of 2019 the highly cited papers are grouped according to the fields and are listed in the descending order of citation index. Names of the researchers who had TSU as an affiliate, TSU subdivision where they work and the number of citations as of 01.02.2020 are shown in parentheses.

Hot papers

1. Search for high-mass dilepton resonances using 139 fb(-1) of pp collision data collected at root s=13 TeV with the ATLAS detector / G. Aad ; ATLAS Collaboration [et al.] // Physics Letters B. – 2019. – Vol. 796. – P. 68-87. (Г. А. Шелков, Центр исследований и разработок "Перспективные технологии в микроэлектронике",  А. И. Ходинов, Б. Парида, А. В. Ваняшин, Лаборатория анализа данных физики высоких энергий; Physics, 14 цит.)

2. The formation of human populations in South and Central Asia / V. M. Narasimhan [et al.]  // Science. – Vol. 365, is. 6457. – Art. № eaat7487. (М. П. Рыкун, ФИПН; Molecular Biology & Genetics, 6 цит. )

 

Highly cited papers

Chemistry

1. Variable magnetic forces impact on magnetizable hybrid nanofluid heat transfer through a circular cavity / M. Sheikholeslami [et al.] // Journal of Molecular Liquids. – 2019. – Vol. 277. – P. 388–396. ( М. А. Шеремет, ММФ; 56 цит.)

2. Free convection of copper-water nanofluid in a porous gap between hot rectangular cylinder and cold circular cylinder under the effect of inclined magnetic field / A. S. Dogonchi [et al.] // Journal of Thermal Analysis and Calorimetry. – 2019. – Vol. 135, is. 2. – P. 1171–1184.(М. А. Шеремет, ММФ; 29 цит.)

Engineering

3. Numerical study of MHD nanofluid natural convection in a baffled U-shaped enclosure / Y. Ma [et al.] // International Journal of Heat and Mass Transfer. – 2019. – Vol. 130. – P.  123–134.  (М. А. Шеремет, ММФ; 24 цит.)

4. Impact of nonhomogeneous nanofluid model on transient mixed convection in a double lid-driven wavy cavity involving solid circular cylinder / A. Alsabery [et al.] // International Journal of Mechanical Sciences. – 2019. – Vol. 150. – P. 637–655. (М. А. Шеремет, ММФ; 18 цит.)

Physics

5. Unique Thickness-Dependent Properties of the van der Waals Interlayer Antiferromagnet MnBi2Te4 Films / M. M. Otrokov [et al.] // Physical Review Letters. – 2019. – Vol. 122, is. 10. – Art. № 107202.  (И. П. Русинов, А. Ю. Вязовская, С. В. Еремеев, Лаборатория наноструктурных поверхностей и покрытий; 23 цит.)

6. First measurement of elastic, inelastic and total cross-section at root s=13TeV by TOTEM and overview of cross-section data at LHC energies: TOTEM Collaboration / G. Antchev [et al.] ; TOTEM Collaboration // European Physical Journal C. – 2019. – Vol 79, is. 2. – Art. № 103.  (В. Н. Иванченко, Е. В. Черняев, Лаборатория экспериментальной физики высоких энергий; 16 цит.)

7. Measurement of the nuclear modification factor for inclusive jets in Pb plus Pb collisions at root s(NN)=5.02 TeV with the ATLAS detector  / M. Aaboud [et al.] ; ATLAS Collaboration // Physics Letters B. – 2019. – Vol. 790. – P. 108–128.  (Г. А. Шелков, Центр исследований и разработок "Перспективные технологии в микроэлектронике";  А. И. Ходинов, А. В. Ваняшин, Лаборатория анализа данных физики высоких энергий; 15 цит.)

8. Search for light resonances decaying to boosted quark pairs and produced in association with a photon or a jet in proton-proton collisions at root s=13 TeV with the ATLAS detector  / M. Aaboud [et al.] ; ATLAS Collaboration // Physics Letters B. – 2019. – Vol. 788. – P. 316–335. (Г. А. Шелков, Центр исследований и разработок "Перспективные технологии в микроэлектронике";  А. И. Ходинов, А. В. Ваняшин, Лаборатория анализа данных физики высоких энергий; 15 цит.)

9. Search for invisible Higgs boson decays in vector boson fusion at root s=13 TeV with the ATLAS detector / M. Aaboud [et al.] ; ATLAS Collaboration // Physics Letters B. – 2019. – Vol. 793. – P. 499–519.  (Г. А. Шелков, Центр исследований и разработок "Перспективные технологии в микроэлектронике";  А. И. Ходинов, А. В. Ваняшин, Лаборатория анализа данных физики высоких энергий; 12 цит.)

10. Search for pair production of Higgs bosons in the b(b)over-barb(b)over-bar final state using proton-proton collisions at root s=13 TeV with the ATLAS detector / M. Aaboud [et al.] ; ATLAS Collaboration // Journal of High Enery Physics. – 2019. – Is. 1. – Art. № UNSP 030.  (Г. А. Шелков, Центр исследований и разработок "Перспективные технологии в микроэлектронике";  А. И. Ходинов, А. В. Ваняшин, Лаборатория анализа данных физики высоких энергий; 8 цит.)

Environment/Ecology

11. Climatic controls of decomposition drive the global biogeography of forest-tree symbioses / B. S. Steidinger [et al.] ; GFBI Consortium // Nature. – 2019. – Vol. 569, is. 7756. – P. 404–408.  (Роберто Кацолла Гатти, БИ; 17 цит.)

12. Impact of weak water deficit on growth, photosynthetic primary processes and storage processes in pine and spruce seedlings / I. E. Zlobin [et al.] // Photosynthesis Research. – 2019. – Vol. 139, is. 1–3. – P. 307–323. (В. В. Кузнецов, БИ; 7 цит.)

Plant & Animal Science

13. sPlot - A new tool for global vegetation analyses / H. Bruelheide [et al.] // Journal of Vegetation Science. – 2019. – Vol. 30, is. 2. – P. 161–186. (А. А. Зверев, БИ; 14 цит.)

Geoscience:

14. Precambrian mafic dyke swarms in the Singhbhum craton (eastern India) and their links with dyke swarms of the eastern Dharwar craton (southern Cheek tot updates India) / R. K. Srivastava [ et al.] // Precambrian Research. – 2019. – Vol. 329. – SI. – P. 5–17. (Р. Э. Эрнст, ГГФ; 8 цит.)

 

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