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2 research outputs found

Towards 14C-free liquid scintillator

Author: Barabanov I. R.
Bezrukov L. B.
Enqvist T.
Gangapshev A. M.
Gavrilyuk Y. M.
Grishina V. Yu.
Gurentsov V. I.
Hissa J.
Joutsenvaara J.
Kazalov V. V.
Krokhaleva S.
Kurlovich A. S.
Kutuniva J.
Kuusiniemi P.
Kuzminov V. V.
Loo Kai
Lubsandorzhiev B. K.
Lubsandorzhiev S.
Morgalyuk V. P.
Novikova G. Y.
Pshukov A. M.
Sinev V. V.
Slupecki Maciej
Trzaska Wladyslaw
Umerov Sh. I.
Veresnikova A. V.
Virkaj arvi A.
Yanovich Y. A.
Zavarzina V. P.
Publication venue: 'IOP Publishing'
Publication date: 13/11/2017
Field of study

A series of measurements has been started where the 14C concentration is determined from several liquid scintillator samples. A dedicated setup has been designed and constructed with the aim of measuring concentrations smaller than 10−18. Measurements take place in two underground laboratories: in the Baksan Neutrino Observatory, Russia, and in the new Callio Lab in the Pyhäsalmi mine, Finland. Low-energy neutrino detection with a liquid scintillator requires that the intrinsic 14C concentration in the liquid is extremely low. In the Borexino CTF detector the concentration of 2 × 10−18 has been achieved being the lowest value ever measured. In principle, the older the oil or gas source that the liquid scintillator is derived from and the deeper it situates, the smaller the 14C concentration is supposed to be. This, however, is not generally the case and the concentration is probably due to the U and Th content of the local environment.peerReviewe

Jyväskylä University Digital Archive

Measuring the 14C content in liquid scintillators

Author: Barabanov I. R.
Bezrukov L. B.
Enqvist T.
Gangapshev A. M.
Gavrilyuk Y. M.
Grishina V. Yu.
Gurentsov V. I.
Hissa J.
Joutsenvaara J.
Kazalov V. V.
Krokhaleva S.
Kurlovich A. S.
Kutuniva J.
Kuusiniemi P.
Kuzminov V. V.
Loo Kai
Lubsandorzhiev B. K.
Lubsandorzhiev S.
Morgalyuk V. P.
Novikova G. Y.
Pshukov A. M.
Sinev V. V.
Slupecki Maciej
Trzaska Wladyslaw
Umerov Sh. I.
Veresnikova A. V.
Virkaj arvi A.
Yanovich Y. A.
Zavarzina V. P.
Publication venue: 'IOP Publishing'
Publication date: 14/07/2016
Field of study

We are going to perform a series of measurements where the 14C/12C ratio will be measured from several liquid scintillator samples with a dedicated setup. The setup is designed with the aim of measuring ratios smaller than 10−18. Measurements take place in two underground laboratories: in the Baksan Neutrino Observatory, Russia and in the Pyh¨asalmi mine, Finland. In Baksan the measurements started in 2015 and in Pyh¨asalmi they start in the beginning of 2015. In order to fully understand the operation of the setup and its background contributions a development of simulation packages has also been started. Low-energy neutrino detection with a liquid scintillator requires that the intrinsic 14C content in the liquid is extremely low. In the Borexino CTF detector at Gran Sasso, Italy the 14C/12C ratio of 2 × 10−18 has been achieved being the lowest 14C concentration ever measured. In principle, the older the oil or gas source that the liquid scintillator is derived of and the deeper it situates, the smaller the 14C/12C ratio is supposed to be. This, however, is not generally the case, and the ratio is probably determined by the U and Th content of the local environment.peerReviewe

Jyväskylä University Digital Archive