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Institution

Moscow State University

EducationMoscow, Russia
About: Moscow State University is a education organization based out in Moscow, Russia. It is known for research contribution in the topics: Catalysis & Laser. The organization has 66747 authors who have published 123358 publications receiving 1753995 citations. The organization is also known as: MSU & Lomonosov Moscow State University.
Topics: Catalysis, Laser, Population, Magnetic field, Crystal structure
Papers published on a yearly basis
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Papers
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Journal ArticleDOI
Multiplicity and transverse momentum dependence of two- and four-particle correlations in pPb and PbPb collisions

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S. Chatrchyan, Vardan Khachatryan, Albert M. Sirunyan, Armen Tumasyan  +2188 moreInstitutions (142)
23 Jul 2013-Physics Letters B
TL;DR: In this paper, measurements of two-and four-particle angular correlations for charged particles emitted in pPb collisions are presented over a wide range in pseudorapidity and full azimuth.

423 citations

Book ChapterDOI
Thinking and Speech

[...]

Еkaterina Zavershneva1, René van der Veer2
Moscow State University1, Leiden University2
01 Jan 2018
TL;DR: This chapter contains documents connected with Thinking and speech written not before 1933 as mentioned in this paper, which contains much older material: chapters 2 to 5 were written before 1930 and are included more or less intact; chapters 1, 6, and 7 were written after 1932 on the basis of existing lectures, notes, etc.
Abstract: This chapter contains documents connected with Thinking and speech written not before 1933. As mentioned previously, this book contained much older material: chapters 2 to 5 were written before 1930 and are included more or less intact; chapters 1, 6, and 7 were written after 1932 on the basis of existing lectures, notes, etc.. (Yasnitsky & Van der Veer, 2016). The exact circumstances of the final composition of the book are not fully known (cf. Van der Veer & Valsiner 1991), and recently Mecacci revealed that just part of the original draft was preserved (Mecacci 2015).

423 citations

Journal ArticleDOI
Physics interplay of the LHC and the ILC

[...]

Georg Weiglein1, Sami Lehti2, Geneviève Bélanger, Tao Han3, David L. Rainwater4, Massimiliano Chiorboli5, Michael Ratz, M. Schumacher6, P. Niezurawski7, Stefano Moretti8, Filip Moortgat9, S. J. Asztalos10, Rohini M. Godbole11, Abdelhak Djouadi12, G. Polesello9, Werner Porod13, Werner Porod14, A.A. Giolo-Nicollerat15, Alessia Tricomi5, J.L. Hewett16, M. Szleper17, L. Zivkovic18, Stephen Godfrey19, Maria Krawczyk7, Klaus Desch20, Alexander Sherstnev21, Dimitri Bourilkov22, A. G. Akeroyd, Dirk Zerwas, M. Muhlleitner23, T. Binoth24, Maria Spiropulu9, Alexander Nikitenko25, A. Krokhotine, V. Bunichev21, Tadas Krupovnickas26, Peter Wienemann, T. Hurth9, T. Hurth16, A. De Roeck9, S. De Curtis27, Ritva Kinnunen2, D. Grellscheid28, U. Baur29, J. Kalinowski7, Gudrid Moortgat-Pick9, Gudrid Moortgat-Pick1, H. U. Martyn30, Alexander Pukhov21, C. Hugonie14, U. Ellwanger, Daniel Tovey31, Aleksander Filip Zarnecki7, Thomas G. Rizzo16, S. Slabospitsky, Jonathan L. Feng32, Remi Lafaye33, Sally Dawson34, Diaz23, Philip Bechtle20, I.F. Ginzburg, Hooman Davoudiasl, Andreas Redelbach24, J. Jiang35, W. J. Stirling1, Reinhold Rückl24, Per Osland36, S. Weinzierl37, Fernando Quevedo38, Laura Reina26, Timothy Barklow16, H. J. Schreiber, Andre Sopczak39, Wilfried Buchmuller, Howard E. Haber40, H. Pas24, E. Lytken41, Xerxes Tata, Howard Baer26, Tsutomu T. Yanagida42, Sabine Kraml43, Sabine Kraml9, Mayda Velasco17, Francois Richard, E. K. U. Gross6, A.F. Osorio44, J. Guasch23, Fawzi Boudjema, Stewart Boogert45, Sven Heinemeyer9, Sabine Riemann, D. Asner18, Daniele Dominici27, Victoria Jane Martin46, J.F. Gunion47, Marco Battaglia48, Michael Spira23, Doreen Wackeroth29, David J. Miller46, David J. Miller49, Joan Sola50, J. Gronberg10, Zack Sullivan, A. Juste, Lynne H. Orr4, Wolfgang Hollik51, Heather E. Logan3, Benjamin C. Allanach38, Junji Hisano42, Carlos E. M. Wagner35, Carlos E. M. Wagner52, Frank F. Deppisch24, Tilman Plehn9, F. Gianotti9, Gianluca Cerminara53, G.A. Blair54, Wolfgang Kilian, Michael Dittmar15, E. E. Boos21, Kiyotomo Kawagoe55, Alexander Belyaev26, Koichi Hamaguchi, Børge Kile Gjelsten56, Tim M. P. Tait, Klaus Mönig, Edmond L. Berger35, P.M. Zerwas, Mihoko M. Nojiri57 
Durham University1, University of Helsinki2, University of Wisconsin-Madison3, University of Rochester4, University of Catania5, Weizmann Institute of Science6, University of Warsaw7, University of Southampton8, CERN9, Lawrence Livermore National Laboratory10, Indian Institute of Science11, University of Montpellier12, University of Zurich13, Spanish National Research Council14, ETH Zurich15, Stanford University16, Northwestern University17, University of Pittsburgh18, Carleton University19, University of Hamburg20, Moscow State University21, University of Florida22, Paul Scherrer Institute23, University of Würzburg24, Imperial College London25, Florida State University26, University of Florence27, University of Bonn28, University at Buffalo29, RWTH Aachen University30, University of Sheffield31, University of California, Irvine32, Laboratoire d'Annecy-le-Vieux de physique des particules33, Brookhaven National Laboratory34, Argonne National Laboratory35, University of Bergen36, University of Mainz37, Centers for Medicare and Medicaid Services38, Lancaster University39, University of California, Santa Cruz40, University of Copenhagen41, University of Tokyo42, Austrian Academy of Sciences43, University of Manchester44, University College London45, University of Edinburgh46, University of California, Davis47, University of California, Berkeley48, University of Glasgow49, University of Barcelona50, Max Planck Society51, University of Chicago52, University of Turin53, Royal Holloway, University of London54, Kobe University55, University of Oslo56, Kyoto University57
01 Apr 2006-Physics Reports
TL;DR: In this paper, the authors discuss the possible interplay between the Large Hadron Collider (LHC) and the International e(+)e(-) Linear Collider (ILC) in testing the Standard Model and in discovering and determining the origin of new physics.

422 citations

Journal ArticleDOI
The strength of adhesive joints using the theory of cracks

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B. M. Malyshev, R. L. Salganik1
Moscow State University1
01 Jun 1965-International Journal of Fracture
TL;DR: In this article, the elastic analysis of non-homogeneous media in which the ratio of normal and shear stress appears as the important parameter is used to determine the dependence of adhesive joints in three separate experimental configurations.
Abstract: Adhesive joints are in general subjected to combined normal and shearing stresses. Proceeding from the known constancy of fracture energy due to normal loading, it is shown that adhesive joints can be analyzed by utilizing the elastic analysis of non-homogeneous media in which the ratio of normal and shear stress appears as the important parameter. This dependence is determined by three separate experimental configurations.

421 citations

Journal ArticleDOI
CLASP1 and CLASP2 bind to EB1 and regulate microtubule plus-end dynamics at the cell cortex

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Yuko Mimori-Kiyosue, I. S. Grigoriev1, Gideon Lansbergen2, Hiroyuki Sasaki3, Chiyuki Matsui, Fedor F. Severin4, Niels Galjart2, Frank Grosveld2, Ivan A. Vorobjev1, Shoichiro Tsukita5, Anna Akhmanova2 
Moscow State University1, Erasmus University Rotterdam2, Jikei University School of Medicine3, Dresden University of Technology4, Kyoto University5
03 Jan 2005-Journal of Cell Biology
TL;DR: It is proposed that CLASPs can mediate interactions between MT plus ends and the cell cortex and act as local rescue factors, possibly through forming a complex with EB1 at MT tips.
Abstract: CLIP-associating protein (CLASP) 1 and CLASP2 are mammalian microtubule (MT) plus-end binding proteins, which associate with CLIP-170 and CLIP-115. Using RNA interference in HeLa cells, we show that the two CLASPs play redundant roles in regulating the density, length distribution and stability of interphase MTs. In HeLa cells, both CLASPs concentrate on the distal MT ends in a narrow region at the cell margin. CLASPs stabilize MTs by promoting pauses and restricting MT growth and shortening episodes to this peripheral cell region. We demonstrate that the middle part of CLASPs binds directly to EB1 and to MTs. Furthermore, we show that the association of CLASP2 with the cell cortex is MT independent and relies on its COOH-terminal domain. Both EB1- and cortex-binding domains of CLASP are required to promote MT stability. We propose that CLASPs can mediate interactions between MT plus ends and the cell cortex and act as local rescue factors, possibly through forming a complex with EB1 at MT tips.

421 citations

Authors

Showing all 68238 results

NameH-indexPapersCitations
Krzysztof Matyjaszewski1691431128585
A. Gomes1501862113951
Robert J. Sternberg149106689193
James M. Tour14385991364
Alexander Belyaev1421895100796
Rainer Wallny1411661105387
I. V. Gorelov1391916103133
António Amorim136147796519
Halina Abramowicz134119289294
Grigory Safronov133135894610
Elizaveta Shabalina133142192273
Alexander Zhokin132132386842
Eric Conte132120684593
Igor V. Moskalenko13254258182
M. Davier1321449107642
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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
2023541
20221,582
20217,040
20208,674
20198,296
20187,187