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M. Korolev

ORCID: 0000-0002-7473-2031
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About
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A5049863631
Research Areas
  • Particle physics theoretical and experimental studies
  • Quantum Chromodynamics and Particle Interactions
  • High-Energy Particle Collisions Research
  • Neutrino Physics Research
  • Particle Detector Development and Performance
  • Dark Matter and Cosmic Phenomena
  • Computational Physics and Python Applications
  • Black Holes and Theoretical Physics
  • Particle Accelerators and Free-Electron Lasers
  • Medical Imaging Techniques and Applications
  • Superconducting Materials and Applications
  • Atomic and Subatomic Physics Research
  • Nuclear physics research studies
  • Stochastic processes and statistical mechanics
  • Radiation Detection and Scintillator Technologies
  • Markov Chains and Monte Carlo Methods
  • Laser-induced spectroscopy and plasma
  • Advanced NMR Techniques and Applications
  • Advanced Data Storage Technologies
  • Laser Design and Applications
  • Pulsed Power Technology Applications
  • Cosmology and Gravitation Theories
  • Radioactive Decay and Measurement Techniques
  • Geophysics and Gravity Measurements
  • Laser Material Processing Techniques

European Organization for Nuclear Research
 2015-2025

Centre de Physique Théorique
 2025

National Centre for Nuclear Research
 2024

Institute of Nuclear Physics, Polish Academy of Sciences
 2024

Universitat de Barcelona
 2023-2024

Universitat Ramon Llull
 2024

Lomonosov Moscow State University
 2012-2023

Horia Hulubei National Institute for R and D in Physics and Nuclear Engineering
 2023

Tsinghua University
 2023

Centro Brasileiro de Pesquisas Físicas
 2013-2015

 Performance of the LHCb Vertex Locator
OPENALEX - Publications 
R. Aaij A. A. Affolder K. Carvalho Akiba M. Alexander S. Ali and 95 more R. B. Appleby M. Artuso A. Bates A. Bay O. Behrendt J. Benton M. van Beuzekom P. M. Bjørnstad G. A. Bogdanova S. Borghi A. Borgia T. J. V. Bowcock J. van den Brand H. Brown J. Buytaert O. Callot John L. Carroll G. Casse P. Collins S. De Capua M. Doets S. Donleavy D. Dossett R. Dumps D. Eckstein L. Eklund C. Farinelli S. Farry M. Ferro-Luzzi Regina Frei J. Garofoli M. Gersabeck T. Gershon A. Gong H. Gong H. A. Gordon G. Haefeli J. Harrison V. Heijne K. Hennessy W. Hulsbergen T. Huse D. Hutchcroft A. Jaeger P. Jałocha E. Jans M. John J. Keaveney T. Ketel M. Korolev M. Kraan T. Laštovička G. Lafferty T. Latham G. Lefeuvre A. Leflat M. Liles A. Van Lysebetten G A MacGregor F. Marinho R. McNulty M. Merkin D. Moran R. Mountain I. Mous J. Mylroie-Smith M. Needham N. Nikitin A. Noor A. Obłąkowska-Mucha A. Papadelis M. Pappagallo C. Parkes G. D. Patel B. Rakotomiaramanana S. Redford M. Reid K. Rinnert E. Rodrigues A. F. Saavedra M. Schiller O. Schneider T. Shears R. Silva Coutinho N. A. Smith T. Szumlak C. Thomas J. van Tilburg M. Tobin J. J. Velthuis B. Verlaat S. Viret V. Volkov C. Wallace Jianping Wang

The Vertex Locator (VELO) is a silicon microstrip detector that surrounds the proton-proton interaction region in LHCb experiment. performance of during first years its physics operation reviewed. system operated vacuum, uses bi-phase CO2 cooling system, and sensors are moved to 7 mm from LHC beam for data taking. stability these characteristic features described, details material budget given. calibration timing processing algorithms implemented FPGAs described. fully characterised. have...

10.1088/1748-0221/9/09/p09007 article EN cc-by Journal of Instrumentation 2014-09-09
 Study of the interactions of pions in the CALICE silicon-tungsten calorimeter prototype
OPENALEX - Publications 
The CALICE collaboration C. Adloff Y. Karyotakis J. Repond J. Yu and 95 more G. Eigen Y. Mikami N. K. Watson J. A. Wilson T. Goto G. Mavromanolakis M. Thomson D. R. Ward W Yan D. Benchekroun A. Hoummada Y. Khoulaki J. Apostolakis A. Ribon V. Uzhinskiy M. Benyamna C. Cârloganu F. Fehr P. Gay G. Blazey D. Chakraborty A. Dyshkant K. Francis D. Hedin J. G. R. Lima V. Zutshi J.-Y. Hostachy K. Krastev Laurent Morin N. d’Ascenzo U. Cornett D. David R. Fabbri G. Falley K. Gadow E. Garutti P. Göttlicher Tae Hyun Jung S. Karstensen A.-I. Lucaci-Timoce B. Lutz N. T. Meyer Volodymyr Morgunov M. Reinecke F. Sefkow P. Smirnov A Vargas-Trevino N Wattimena Oliver Wendt N. Feege M. Groll J. Haller R.D. Heuer S. V. Morozov S. Richter James A. R. Samson A. Kaplan H.-C. Schultz-Coulon Wei Shen Alexander Tadday B. Bilki E. Norbeck Y. Onel E. J. Kim G Kim DW Kim K Lee S C Lee K. Kawagoe Yusuke Tamura P. D. Dauncey A.-M. Magnan H Yilmaz O. Zorba V. Bartsch M. Postranecky M. Warren M. Wing M G Green F. Salvatore M. Bedjidian Robert Kieffer I. B. Laktineh M. C. Fouz D. S. Bailey R. J. Barlow M. Kelly R. J. Thompson M. Danilov E. Tarkovsky N. Baranova D. Karmanov M. Korolev M. Merkin A. Voronin

A prototype silicon-tungsten electromagnetic calorimeter for an ILC detector was tested in 2007 at the CERN SPS test beam. Data were collected with electron and hadron beams energy range 8 to 80 GeV. The analysis described here focuses on interactions of pions calorimeter. One main objectives CALICE program is validate Monte Carlo tools available design a full-sized detector. Si-W are therefore confronted predictions various physical models implemented GEANT4simulation framework.

10.1088/1748-0221/5/05/p05007 article EN Journal of Instrumentation 2010-05-27
 Long-term operation of the multi-wire-proportional-chambers of the LHCb muon system
OPENALEX - Publications 
F.P. Albicocco L. Anderlini M. Anelli F. Archilli G. Auriemma and 53 more W. Baldini G. Bencivenni N. Bondar B. Bochin D. Brundu S. Cadeddu P. Campana G. Carboni A. Cardini M. Carletti L. Casu A. Chubykin X. Cid Vidal E. Danè P. De Simone M. Fontana P. Fresch M. Gatta G. Gavrilov S. Gets G. Graziani A. Kashchuk M. Korolev S. Kotriakhova E. Kuznetsova A. Lai O. V. Levitskaya A. Loi O. Maev D. A. Maysuzenko G. Martellotti S. Nasybulin P. Neustroev R. Oldeman M. Palutan G. Passaleva G. Penso D. Pinci R. Santacesaria M. Santimaria E. Santovetti B. Saitta A. Saputi A. Sarti C. Satriano A. Satta B. Schmidt Thomas Schneider B. Sciascia A. Sciubba R. Vazquez-Gomez S. Vecchi A. Vorobyev

The muon detector of LHCb, which comprises 1368 multi-wire-proportional-chambers (MWPC) for a total area 435 m2, is the largest instrument its kind exposed to such high-radiation environment. In nine years operation, from 2010 until 2018, we did not observe appreciable signs ageing in terms reduced performance. However, during long period, many chamber gas gaps suffered HV trips. Most trips were due Malter-like effects, characterised by appearance local self-sustained high currents,...

10.1088/1748-0221/14/11/p11031 article EN cc-by Journal of Instrumentation 2019-11-27
 Cumulation, collisions, and flow around fast gas jets in laser ablation of surfaces and in explosions of thin films of matter. Practical applications
OPENALEX - Publications 
G. A. Askar’yan M. Korolev Alexander Yurkin K. L. Yakushkin

Experiments were carried out on the cumulation, collisions, and flow around vapour jets at velocities of (1–2)×106 cm s-1. The formed by action high-power laser pulses incident a concave or flat surface thin metallised film bulk target in vacuum. Strong cumulation was observed explosions cylindrical surface: jet cross section reduced factor 30–40. A study made collisions counterpropagating selected point flow, gas jets, larger jets. erosion tracks, focused solids, observed. These results...

10.1070/qe1995v025n04abeh000348 article EN Quantum Electronics 1995-04-30
 Investigation of the compressed baryonic matter at the GSI accelerator complex
OPENALEX - Publications 
V. Ladygin T. O. Ablyazimov Pavel Akishin E. P. Akishina Valentina Akishina and 38 more M.I. Baznat I.V. Boguslavsky V. Borshchov A. V. Bychkov D.V. Dementiev O. Yu. Derenovskaya V. Elsha K.K. Gudima Y. Gusakov S. N. Igolkin A. Yu. Isupov В. В. Иванов G. D. Kekelidze A.N. Khrenov Pavel Kisel M. Korolev Guennady Kozlov V. A. Kramarenko P. K. Kurilkin N. B. Ladygina V. Lysan A. Malakhov I.P. Martinovsky M. M. Merkin Yu. Murin S. S. Parzhitsky V. A. Penkin S. M. Piyadin M. Protsenko A. A. Savenkov A. Shabunov A.I. Shafranovskaya A. D. Sheremetiev O.G. Tarasov I. Tymchuk N. Zamiatin A. Zinchenko E. Zubarev

The Compressed Baryonic Matter (CBM) experiment at FAIR will play a unique role in the exploration of QCD phase diagram region high net-baryon densities, because it is designed to run unprecedented interaction rates. High-rate operation key prerequisite for high-precision measurements multi-differential observables and rare diagnostic probes which are sensitive dense nuclear fireball. goal CBM SIS100 (√sNN = 2-4.9 GeV) discover fundamental properties matter, namely, equation-of-state density...

10.1051/epjconf/201713801020 article EN cc-by EPJ Web of Conferences 2017-01-01
 Design and Electronics Commissioning of the Physics Prototype of a Si-W Electromagnetic Calorimeter for the International Linear Collider
OPENALEX - Publications 
CALICE Collaboration J. Repond J. Yu C. M. Hawkes Y. Mikami and 95 more O. Miller N. K. Watson G. Wilson G. Mavromanolakis M. Thomson D. R. Ward W Yan F. Badaud D. Boumediene C. Cârloganu R. Cornat P. Gay Ph. Gris S. Manen François Morisseau L. Royer G. Blazey D. Chakraborty A. Dyshkant K. Francis D. Hedin J. G. R. Lima V. Zutshi J-Y. Hostachy Laurent Morin E. Garutti V. Korbel F. Sefkow M. Groll G. Kim DW Kim K. Lee S. Lee K. Kawagoe Yusuke Tamura D. A. Bowerman P.D. Dauncey A.-M. Magnan Ciro A. Noronha H Yilmaz O. Zorba V. Bartsch J. M. Butterworth M. Postranecky M. Warren M. Wing M. Faucci Giannelli M. G. Green F. Salvatore Tao Wu D. Bailey R. J. Barlow M. Kelly S.W. Snow R. J. Thompson M. Danilov V. Kochetkov N. Baranova P. Ermolov D. Karmanov M. Korolev M. Merkin A. Voronin B. Bouquet S. Callier F. Dulucq J. Fleury H. Li G. Martin-Chassard F. Richard Ch. de la Taille Roman Poeschl L. Raux M. Q. Ruan N. Seguin-Moreau F. Wicek Z. Zhang M. Anduze V. Boudry J.C. Brient C. Clerc G. Gaycken Claude Jauffret A. Karar P. Mora de Freitas G. Musat Marcel Reinhard A. Rougé A. L. Sanchez Jean‐Charles Vanel H. Videau J. Žáček J. Cvach P. Gallus M. Havranek

The CALICE collaboration is studying the design of high performance electromagnetic and hadronic calorimeters for future International Linear Collider detectors. For calorimeter, current baseline choice a granularity sampling calorimeter with tungsten as absorber silicon detectors sensitive material. A ``physics prototype'' has been constructed, consisting thirty layers. Each layer an active area 18x18 cm2 pad size 1x1 cm2. thickness totals 24 radiation lengths. It exposed in 2006 2007 to...

10.48550/arxiv.0805.4833 preprint EN other-oa arXiv (Cornell University) 2008-01-01
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