B. A. Shaybonov scite author profile

We have analyzed a data set taken over 2.76 years live time with the Baikal neutrino telescope NT200. The goal of the analysis is to search for neutrinos from dark matter annihilation in the center of the Sun. Apart from the conventional annihilation channels bb, W + W − and τ + τ − we consider also the annihilation of dark matter particles into monochromatic neutrinos. From the absence of any excess of events from the direction of the Sun over the expected background, we derive 90% upper limits on the fluxes of muons and muon neutrinos from the Sun, as well as on the elastic cross sections of dark matter scattering on protons.

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The prototyping/early construction phase of the BAIKAL-GVD project

Avrorin

Aynutdinov

et al. 2014

Nuclear Instruments and Methods in Physics Research Section A:

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The Prototyping phase of the BAIKAL-GVD project has been started in April 2011 with the deployment of a three string engineering array which comprises all basic elements and systems of the Gigaton Volume Detector (GVD) in Lake Baikal. In April 2012 the version of engineering array which comprises the first full-scale string of the GVD demonstration cluster has been deployed and operated during 2012. The first stage of the GVD demonstration cluster which consists of three strings is deployed in April 2013. We review the Prototyping phase of the BAIKAL-GVD project and describe the configuration and design of the 2013 engineering array.

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Status and recent results of the BAIKAL-GVD project

Avrorin

Aynutdinov

et al. 2015

Phys. Part. Nuclei

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Neutrino Telescope in Lake Baikal: Present and Nearest Future

Allakhverdyan¹,

Avrorin²,

Avrorin³

et al. 2021

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Diffuse neutrino flux measurements with the Baikal-GVD neutrino telescope

Allakhverdyan¹,

Avrorin²,

Avrorin³

et al. 2023

Phys. Rev. D

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Recent observations of the Galactic component of the high-energy neutrino flux, together with the detection of the diffuse Galactic gamma-ray emission up to sub-PeV energies, open new possibilities to study the acceleration and propagation of cosmic rays in the Milky Way. At the same time, both large non-astrophysical backgrounds at TeV energies and scarcity of neutrino events in the sub-PeV band currently limit these analyses. Here we use the sample of cascade events with estimated neutrino energies above 200 TeV, detected by the partially deployed Baikal Gigaton Volume Detector (GVD) in six years of operation, to test the continuation of the Galactic neutrino spectrum to sub-PeV energies. We find that the distribution of the arrival directions of Baikal-GVD cascades above 200 TeV in the sky suggests an excess of neutrinos from low Galactic latitudes. We find the excess above 200 TeV also in the most recent IceCube public data sets, both of cascades and tracks. The significant (3.6σ in the combined analysis) flux of Galactic neutrinos above 200 TeV challenges often-used templates for neutrino search based on cosmic-ray simulations.

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B. A. Shaybonov

Search for neutrino emission from relic dark matter in the sun with the Baikal NT200 detector

The prototyping/early construction phase of the BAIKAL-GVD project

Status and recent results of the BAIKAL-GVD project

Neutrino Telescope in Lake Baikal: Present and Nearest Future

Diffuse neutrino flux measurements with the Baikal-GVD neutrino telescope

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