We have developed a new laser-based time calibration system for highly segmented scintillator counters like the MEG II pixelated Timing Counter (pTC), consisting of 512 centimetre-scale scintillator counters read out by silicon photomultipliers (SiPMs). It is difficult to apply previous laser-based calibration methods for conventional metre-scale Time-Of-Flight detectors to the MEG II pTC from the implementation and the accuracy points of view. This paper presents a new laser-based time calibration system which can overcome such difficulties. A laser pulse is split into each scintillator counter via several optical components so that we can directly measure the time offset of each counter relative to the laser-emitted time. We carefully tes...
The development of a Timing Counter detector with a resolution in the range of ≈ 30 ps will be prese...
The development of a Timing Counter detector designed for the MEGII upgrade of the MEG experiment, w...
The MEG experiment has searched for the µ+! e++ γ decay setting a limit on the branching ratio down ...
We have developed a new laser-based time calibration system for highly segmented scintillator counte...
We have developed a new laser-based time calibration system for the MEG II timing counter dedicated ...
The MEG II experiment (Baldini et al., 2018) [1] is designed to improve the sensitivity to the μ +→e...
In this paper, we introduce the positron timing counter (TC) for the MEG II experiment as an applica...
A new timing detector measuring \ue2\u88\ubc50MeV/c positrons is under development for the MEG II ex...
The MEG experiment is now being upgraded to search for the charged lepton flavor violating decay μ+ ...
A new timing detector has been developed to measure \ue2\u88\ubc50\uc2\ua0MeV/c positrons with a tim...
The MEG II experiment is designed to improve by an order of magnitude the sensitivity of 4.2 x 10(-1...
A positron timing counter (TC) with 30–40 ps time resolution for 50 MeV/c positrons required by the ...
The MEGII Timing Counter will measure the positron time of arrival with a resolution of ~ 30 ps rely...
The development of a Timing Counter detector with a resolution in the range of ≈ 30 ps will be prese...
The development of a Timing Counter detector designed for the MEGII upgrade of the MEG experiment, w...
The MEG experiment has searched for the µ+! e++ γ decay setting a limit on the branching ratio down ...
We have developed a new laser-based time calibration system for highly segmented scintillator counte...
We have developed a new laser-based time calibration system for the MEG II timing counter dedicated ...
The MEG II experiment (Baldini et al., 2018) [1] is designed to improve the sensitivity to the μ +→e...
In this paper, we introduce the positron timing counter (TC) for the MEG II experiment as an applica...
A new timing detector measuring \ue2\u88\ubc50MeV/c positrons is under development for the MEG II ex...
The MEG experiment is now being upgraded to search for the charged lepton flavor violating decay μ+ ...
A new timing detector has been developed to measure \ue2\u88\ubc50\uc2\ua0MeV/c positrons with a tim...
The MEG II experiment is designed to improve by an order of magnitude the sensitivity of 4.2 x 10(-1...
A positron timing counter (TC) with 30–40 ps time resolution for 50 MeV/c positrons required by the ...
The MEGII Timing Counter will measure the positron time of arrival with a resolution of ~ 30 ps rely...
The development of a Timing Counter detector with a resolution in the range of ≈ 30 ps will be prese...
The development of a Timing Counter detector designed for the MEGII upgrade of the MEG experiment, w...
The MEG experiment has searched for the µ+! e++ γ decay setting a limit on the branching ratio down ...