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thesis/chapters/chap8_conclusions.tex
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\chapter{Conclusions}
\label{cha:conclusions}
AlCap is an experiment proposed at PSI to study charged particles, neutrons
The AlCap is an experiment proposed at PSI to study charged particles, neutrons
and photons emitting after nuclear muon capture on aluminium. These
measurements are important for backgrounds and hit rates estimation of the new
generation of \mueconv experiments, COMET and Mu2e. In the first stage of the
@@ -9,23 +9,33 @@ dominated by low energy protons following muon capture on an aluminium target,
which has never been measured.
The first run of the AlCap which aims for proton measurement has been carried
out in 2013. Data analysis is in progress. An initial analysis on partial data
was done with the main results are:
out in 2013. Data analysis is in progress. Before finishing the complete AlCap
analysis, an initial analysis on partial data
was made. The main results are:
\begin{enumerate}
\item Demonstration of the analysis chain from raw waveforms to physics
events;
\item Validation of the experimental method including: number of nuclear
\item demonstration of the analysis chain from trigger-less waveforms to
correlated physics events;
\item validation of the experimental method including: number of nuclear
capture muons normalisation by muonic X-ray measurement, charged particle
identification by specific energy loss, and unfolding of the proton energy
spectrum using the iterative Bayesian method;
\item Obtaining preliminary results on proton emission rate and spectrum:
the proton spectrum has a peak at \SI{4}{\MeV}, then reduces exponentially
\item obtaining preliminary results on proton emission rate and spectrum:
the proton spectrum has a peak at \SI{3.7}{\MeV}, then reduces exponentially
with a decay constant of \SI{2.6}{\MeV}. The partial emission rate in the
energy range from \SIrange{4}{8}{\MeV} is $(1.7 \pm 0.1)\%$, and the total
emission rate assuming the shape holds for the whole spectrum is
$(3.5\pm0.2)$.
\end{enumerate}
The emission rate is consistent with the lower limit of 2.8\% set by
Wyttenbach et al.~\cite{WyttenbachBaertschi.etal.1978}. It is also compatible
with the theoretical calculation by Lifshitz and
Singer~\cite{LifshitzSinger.1980}. Compared with the emission rate from
silicon, our result is smaller.
The proton rate and spectrum have been used to optimise the planned proton
absorber for the drift chamber of the COMET Phase-I. The resulted proton hit
rate with the baseline configuration is very small compared with the current
figure. It is safe to remove the proton absorber altogether.
rate with the baseline configuration is very small compared with the current
figure. It is safe to remove the proton absorber altogether. This would make
a strong impact to the drift chamber design. The AlCap experiment is going to
submit a beam time request for the 2015 run to collect more data and other
measurements for neutrons and gamma rays.