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D. Vasilkova

ORCID: 0000-0001-8704-3254
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About
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A5029106413
Research Areas
  • Particle physics theoretical and experimental studies
  • High-Energy Particle Collisions Research
  • Particle Detector Development and Performance
  • Superconducting Materials and Applications
  • Dark Matter and Cosmic Phenomena
  • Quantum Chromodynamics and Particle Interactions
  • Particle accelerators and beam dynamics
  • Radiation Detection and Scintillator Technologies
  • Computational Physics and Python Applications
  • Muon and positron interactions and applications
  • Astrophysics and Cosmic Phenomena
  • Scientific Research and Discoveries
  • Neutrino Physics Research

University College London
 2021-2024

University of Liverpool
 2023

 A compact frozen-spin trap for the search for the electric dipole moment of the muon
OPENALEX - Publications 
A. Adelmann Alex Bainbridge I. Bailey A. Baldini S. Basnet and 55 more N. Berger Ciro Calzolaio L. Caminada G. Cavoto F. Cei R. Chakraborty C. Chavez Barajas M. Chiappini Andreas Crivellin Chavdar Dutsov A. Ebrahimi M. Francesconi L. Galli G. Gallucci M. Giovannozzi H. C. Goyal M. Grassi Andrea Gurgone M. Hildebrandt Martin Hoferichter Daniel Hohl T. Hu Timothy Hume J.F. Jaeger P. Juknevicius Hans-Christian Kästli Alexander Keshavarzi Kim Siang Khaw K. Kirch A. Kozlinskiy M. Lancaster Bastian Märkisch L. Morvaj A. Papa Martin Paraliev D. Pasciuto J. D. Price F. Renga M. Sakurai D. Sanz-Becerra P. Schmidt-Wellenburg Y. Shang Y. Takeuchi M. E. Tegano T. Teubner Frédéric Trillaud D. Uglietti D. Vasilkova A. Venturini B. Vitali C. Voena J. H. Vossebeld Frederik Waûters Guan Ming Wong Y. Zeng

The electric dipole moments~(EDM) of fundamental particles inherently violate parity~(P) and time-reversal~(T) symmetries. By virtue the CPT theorem in quantum field theory, latter also implies violation combined charge-conjugation parity~(CP) symmetry. We aim to measure EDM muon using frozen-spin technique within a compact storage trap. This method exploits high effective field, \$E \approx 165\$ MV/m, experienced rest frame with momentum about 23 MeV/c when it passes through solenoidal...

10.48550/arxiv.2501.18979 preprint EN arXiv (Cornell University) 2025-01-31
 The straw tracking detector for the Fermilab Muon g-2 Experiment
OPENALEX - Publications 
B. T. King T. Albahri S. Al-Kilani D. Allspach D. Beckner and 52 more Andrew Behnke T. J. V. Bowcock D. Boyden Robert M. Carey John L. Carroll B. C. K. Casey S. Charity R. T. Chislett M. Eads Aaron Epps S. B. Foster Daniel Gastler S. Grant T. Halewood-leagas K. Hardin E. Hazen G. G. Hesketh D. Hollywood T. J. Jones C. Kenziora Alexander Keshavarzi M. Kiburg N. Kinnaird J. C. Kintner M. Lancaster A. Lucà G. Lukicov Guang Luo L. Mapar S. J. Maxfield J. Mott E. Motuk H. Mourato Nicholas A. Pohlman J. D. Price B. L. Roberts Deepak Sathyan M. Shenk D. H. Sim T. Stuttard G. Sweetmore GD Thayer K. A. Thomson W. Turner D. Vasilkova J. Velho E. Voirin T. Walton M. Warren L. Welty-Rieger M. Whitley M. Wormald

Abstract The Muon g -2 Experiment at Fermilab uses a gaseous straw tracking detector to make detailed measurements of the stored muon beam profile, which are essential for experiment achieve its uncertainty goals. Positrons from decays spiral inward and pass through before striking an electromagnetic calorimeter. is therefore located inside vacuum chamber in region where magnetic field large non-uniform. As such, must have low leak rate maintain high-quality vacuum, be non-magnetic so as not...

10.1088/1748-0221/17/02/p02035 article EN cc-by Journal of Instrumentation 2022-02-01
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