EPJ Web of Conferences (Jan 2019)
Spatial positioning of underwater components for Baikal- GVD
- Avrorin A.D.,
- Avrorin A.V.,
- Aynutdinov V.M.,
- Bannash R.,
- Belolaptikov I.A.,
- Brudanin V.B.,
- Budnev N.M.,
- Gorshkov N.S.,
- 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.,
- 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.
Affiliations
- Avrorin A.D.
- Avrorin A.V.
- Aynutdinov V.M.
- Bannash R.
- Belolaptikov I.A.
- Brudanin V.B.
- Budnev N.M.
- Gorshkov N.S.
- 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.
- 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.
- DOI
- https://doi.org/10.1051/epjconf/201920707004
- Journal volume & issue
-
Vol. 207
p. 07004
Abstract
Baikal-GVD is a cubic kilometer-scale neutrino telescope currently under construction in Lake Baikal. The detector’s components are mobile and may drift from their initial coordinates or change their spatial orientation. This introduces a reconstruction error, particularly a timing error for PMT hits. This problem is mitigated by a combination of a hydroacoustic positioning system and per-component acceleration and orientation sensors. Under regular conditions, the average positioning accuracy for a GVD component is estimated to be less than 13 cm.