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S.G. Pivovarov

Researcher at Budker Institute of Nuclear Physics

Publications -  62
Citations -  699

S.G. Pivovarov is an academic researcher from Budker Institute of Nuclear Physics. The author has contributed to research in topics: Collider & Branching fraction. The author has an hindex of 14, co-authored 56 publications receiving 556 citations. Previous affiliations of S.G. Pivovarov include Novosibirsk State Technical University.

Papers
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Journal ArticleDOI

Study of the process e+e−→pp¯ in the c.m. energy range from threshold to 2 GeV with the CMD-3 detector

R.R. Akhmetshin, +97 more
- 10 Aug 2016 - 
TL;DR: In this paper, a data sample of 7.7 pb − 1 collected with the CMD-3 detector at the VEPP-2000 e + e − collider was used to select about 2900 events of the process and measure its cross section at 12 energy points with about 6% systematic uncertainty.
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The TAIGA experiment: From cosmic-ray to gamma-ray astronomy in the Tunka valley

N. M. Budnev, +91 more
- 11 Feb 2017 - 
TL;DR: The Tunka Advanced Instrument for cosmic ray physics and gamma-ray astronomy (TAIGA) as mentioned in this paper is a complex, hybrid detector for ground-based gamma ray astronomy for energies from a few TeV to several PeV.
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Measurement of R uds and R between 3.12 and 3.72 GeV at the KEDR detector

V.V. Anashin, +130 more
- 10 Feb 2016 - 
TL;DR: In this paper, the authors used the KEDR detector at the VEPP-4M e + e − e − + e + E − collider to measure the values of R uds R ud and R at seven points of the center-of-mass energy between 3.12 and 3.72 GeV.
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Measurement of R between 1.84 and 3.05 GeV at the KEDR detector

V.V. Anashin, +129 more
- 10 Jul 2017 - 
TL;DR: Using the KEDR detector at the VEPP-4M e + e − collider, this paper determined the values of R at thirteen points of the center-of-mass energy between 1.84 and 3.05 GeV.
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Precision resonance energy scans with the PANDA experiment at FAIR - Sensitivity study for width and line shape measurements of the X(3872)

Gianni Barucca, +449 more
- 01 Mar 2019 - 
TL;DR: In this article, a Monte Carlo simulation study for precision resonance energy scan measurements is presented, including the proof of principle for natural width and line shape measurements, which is used in this paper.