Author:
Avrorin A.D.,Avrorin A.V.,Aynutdinov V.M.,Bannash R.,Belolaptikov I.A.,Brudanin V.B.,Budnev N.M.,Doroshenko A.A.,Domogatsky G.V.,Dvornický R.,Dyachok A.N.,Dzhilkibaev Zh.-A.M.,Fajt L.,Fialkovsky S.V.,Gafarov A.R.,Golubkov K.V.,Gorshkov N.S.,Gres T.I.,Kebkal K.G.,Kebkal O.G.,Khramov E.V.,Kolbin M.M.,Konischev K.V.,Korobchenko A.V.,Koshechkin A.P.,Kozhin V.A.,Kruglov M.V.,Kryukov M.K.,Kulepov V.F.,Kuleshov D.A.,Milenin M.B.,Mirgazov R.A.,Nazari V.,Panfilov A.I.,Petukhov D.P.,Pliskovsky E.N.,Rozanov M.I.,Rjabov E.V.,Rushay V.D.,Safronov G.B.,Šimkovic F.,Skurichin A.V.,Shaybonov B.A.,Solovjev A.G.,Sorokovikov M.N.,Shelepov M.D.,Suvorova O.V.,Shtekl I.,Tabolenko V.A.,Tarashansky B.A.,Yakovlev S.A.,Zagorodnikov A.V.
Abstract
Currently in Lake Baikal a new-generation neutrino telescope is being deployed: Baikal-GVD, a deep underwater Cherenkov detector on the cubic-kilometer scale. This paper presents the status of the detector implementation and the first physical results obtained with the existing configuration.