In this talk I will present recent results obtained with the Active Target Time Projection Chamber (AT-TPC) at the NSCL, and discuss the performance and functionalities of the GET electronics. I will also discuss future plans for using the GET system with other detectors and devices at the NSCL/FRIB laboratory.
We plan to design, build and deploy a second generation of the Extreme Universe Space Observatory (EUSO), to be flown aboard a Super-Pressure Balloon (SBP). EUSO-SPB2 will view the night sky in the Southern hemisphere to detect cosmic rays of very high energies and pioneer the search for cosmogenic and astrophysical neutrinos from a sub-orbital platform. EUSO-SPB2 is a pathfinder for the Probe...
A new front-end based on digital GET electronics has been adopted for the readout of the CsI(Tl) detectors of the CHIMERA 4π multi-detector and for the new modular Femtoscopy Array for Correlation and Spectroscopy (FARCOS). The integration of this system has required the development of a new first stage front-end for FARCOS, based on CMOS new pre-amplifiers for both DSSSD Silicon and CsI(Tl)...
The ACTAR TPC is a Time Projection Chamber developed for fundamental nuclear physics studies. It results from the joint efforts to build a second generation detector that addresses the physics for which the MAYA detector (nuclear reaction and structure studies) and the CENBG TPC (exotic decay and proton emission studies) were previously developed. In addition to specific developments...
This short presentation will show what is the status of MUTANT
in terms of:
- Latest firmware (with new options)
- New documentation
- Level 2 trigger usage (tools and example)
The GES project stands for “Generic Electronics System”. It is aimed at developing a chain of generic electronics, comprising hardware, firmware and software modules to be assembled for the purpose of data acquisition on particle detectors. The modules include ASIC chips, electronics boards, and firmware or software components. The range of applications of the GES modules typically covers...
Presentation of frontend board for small number of channels (32/64) for gaseous detectors and silicium detectors.
The explosive hydrogen burning in classical novae and x-ray bursts proceeds through radiative proton capture reactions involving proton rich nuclei close to the drip-line. Many of the reactions involved are dominated by resonant capture and the properties of the key resonances are based on limited experimental information. The properties of the key resonances need to be studied through...
The GET system has been adopted for the readout of a newly developed time projection chamber (HypTPC) at J-PARC. The high rate secondary beam up to $10^{6}~\textrm{Hz}$ from the world highest intensity proton beam at J-PARC should be taken into account in design of the detector system. The HypTPC has the octagonal drift volume defined by the field cage, the cathode plane at the top and the...
