28 research outputs found
Strange nuclear physics - a brief status report
This paper briefly reviews the present status of strange nuclear physics. Recently, significant progress has been made. One example to be discussed is a new, electroproduction experiment which offers the possibility of obtaining hypernuclear spectra with at least a factor of 3 better resolution than previously. However, many different experiments impact a spectrum of problems from weak interactions to astrophysics. Although in this short paper it is not possible to cover many topics in depth, sufficient information is provided so that the interested reader can obtain all of the most relevant material
Strana nuklearna fizika – kratak pregled
This paper briefly reviews the present status of strange nuclear physics. Recently, significant progress has been made. One example to be discussed is a new, electroproduction experiment which offers the possibility of obtaining hypernuclear spectra with at least a factor of 3 better resolution than previously. However, many different experiments impact a spectrum of problems from weak interactions to astrophysics. Although in this short paper it is not possible to cover many topics in depth, sufficient information is provided so that the interested reader can obtain all of the most relevant material.Kratko se raspravlja o stranoj nuklearnoj fizici. Nedavno je načinjen važan napredak. Primjer koji se raspravlja je novo mjerenje elektrotvorbe koje pruža mogućnost za dobivanje Λ hiperjezgri s razlučivanjem boljim barem tri puta od dosadašnjih. Međutim, mnoga se različita mjerenja sučeljavaju s nizom teškoća od slabih međudjelovanja do astrofizike. Ovdje se ne raspravljaju podrobnije mnoge teme, ali se izlažu podaci kojima se može dobiti najveći dio povezane građe
Strange nuclear physics - a brief status report
This paper briefly reviews the present status of strange nuclear physics. Recently, significant progress has been made. One example to be discussed is a new, electroproduction experiment which offers the possibility of obtaining hypernuclear spectra with at least a factor of 3 better resolution than previously. However, many different experiments impact a spectrum of problems from weak interactions to astrophysics. Although in this short paper it is not possible to cover many topics in depth, sufficient information is provided so that the interested reader can obtain all of the most relevant material
Measurement of proton, deuteron, triton, and α particle emission after nuclear muon capture on Al, Si, and Ti with the AlCap experiment
Heavy charged particles after nuclear muon capture are an important nuclear
physics background to the muon-to-electron conversion experiments Mu2e and
COMET, which will search for charged lepton flavor violation at an
unprecedented level of sensitivity. The AlCap experiment measured the yield and
energy spectra of protons, deuterons, tritons, and alpha particles emitted
after the nuclear capture of muons stopped in Al, Si, and Ti in the low energy
range relevant for the muon-to-electron conversion experiments. Individual
charged particle types were identified in layered silicon detector packages and
their initial energy distributions were unfolded from the observed energy
spectra. Detailed information on yields and energy spectra for all observed
nuclei are presented in the paper.Comment: 24 pages, 19 figure