@@ -29,15 +29,16 @@ This work is dedicated to the results on the $^2$H($^8$He,$^6$Li) reaction studi
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@@ -29,15 +29,16 @@ This work is dedicated to the results on the $^2$H($^8$He,$^6$Li) reaction studi
\section{Experiment}
\section{Experiment}
ACCULINNA-2 facility, FLNR, JINR, produced 26\,AMeV $^{8}$He and focused it on the cryogenic deuterium target.
The experiment was dedicated to $^{7}$H studies, see Ref.\ \cite{Muzalevskii:2021}, but the detection system allowed to measure the product of the $^2$H($^8$He,$^6$Li)4n reaction and further neutron decay.
ACCULINNA-2 facility, FLNR, JINR, produced the 26\,AMeV $^{8}$He beam with intensity $\approx10^{5}$\,pps.
This beam was focused on the cryogenic gaseous deuterium 27\,K target with a temperature of 27\,K equipped with stainless steel and mylar windows.
Initially, the experiment was dedicated to $^{7}$H studies, see Ref.\ \cite{Muzalevskii:2021}, but the detection system allowed to measure the product of the $^2$H($^8$He,$^6$Li)4n reaction and further neutron decay.
The employed detector system is widely described in Ref.\ \cite{Muzalevskii:2021}.
The employed detector system is widely described in Ref.\ \cite{Muzalevskii:2021}.
The beam particles were identified by two plastic scintillators, which allowed to measure the energy of the projectile from its time-of-flight (ToF).
The beam particles were identified by two plastic scintillators, which allowed to measure the energy of the projectile from its time-of-flight (ToF).
%The particle identification (PID) of the beam was performed by the dE-ToF
%The particle identification (PID) of the beam was performed by the dE-ToF
%For the beam particle identification and its energy determination two plastic scintillators were used.
%For the beam particle identification and its energy determination two plastic scintillators were used.
The trajectories the beam projectiles were tracked by two pairs of multi-wire proportional chambers.
The motion vector of were reconstructed by two pairs of multi-wire proportional chambers.
The cryogenic target was filled with a deuterium gas at 27\,K of atmospheric pressure.
The special run with the empty target cell was conducted to estimate the background conditions, which had $\approx$16\% of the total $^8$He beam time.
The special run with the empty target cell was conducted to estimate the background conditions, which had $\approx$16\% of the total $^8$He beam time.
Detection of the charged reaction products was realized by $\Delta E$-$E$ telescopes.
Detection of the charged reaction products was realized by $\Delta E$-$E$ telescopes.
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@@ -121,7 +122,7 @@ The latter will not also increase statistics but also will allow to study neutro
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@@ -121,7 +122,7 @@ The latter will not also increase statistics but also will allow to study neutro
\section{Acknowledgement}
\section{Acknowledgement}
%Institute of Physics of Silesian University in Opava
%Institute of Physics of Silesian University in Opava
We also acknowledge the principal support of this work by the Russian Science
We acknowledge the principal support of this work by the Russian Science
Foundation grant No.\ 22-12-00054. The authors are grateful to
Foundation grant No.\ 22-12-00054. The authors are grateful to
Profs.\ Yu.Ts.\ Oganessian and S.N.\ Dmitriev for the long-term support and
Profs.\ Yu.Ts.\ Oganessian and S.N.\ Dmitriev for the long-term support and
development of this activity. We acknowledge important contribution of Prof.\
development of this activity. We acknowledge important contribution of Prof.\