Author :
Marton, J. ; Cargnelli, M. ; Ishiwatari, T. ; Kienle, P. ; Nikolics, K. ; Widmann, E. ; Zmeskal, J. ; Bazzi, M. ; Catitti, M. ; Curceanu, C. ; Guaraldo, C. ; Iliescu, M. ; Sandri, P.L. ; Lucherini, V. ; Okada, Shogo ; Pietreanu, D. ; Vidal, A.R. ; Scordo,
Abstract :
Hadronic atoms being Coulomb-bound systems in which the electron is substituted by a hadron like a negatively charged K meson are perfect probes for the study of strong interaction at lowest energies using x-ray spectroscopy. New large area x-ray detectors (silicon drift detectors, SDDs) were developed to provide excellent energy resolution as well as timing capability. For the first time large area SDDs were employed to measure the L-lines of kaonic helium at high precision thus succeeding in clarifying a puzzle persisting for 30 years since the 70´s. An array of about 200 even more sophisticated SDDs (1 cm2 SDDs with monolithically integrated FET) will be used to perform precision measurements (i.e., at the eV level) of kaonic hydrogen and kaonic deuterium at the DAFNE Phi factory of LNF/Italy. The new x-ray detectors and their performance for precision experiments in the accelerator environment are presented.
Keywords :
X-ray apparatus; X-ray detection; X-ray spectroscopy; hydrogen neutral atoms; position sensitive particle detectors; silicon radiation detectors; Coulomb-bound systems; H; X-ray detectors; X-ray spectroscopy; charged kaon meson; electron; hadronic atoms; kaonic deuterium; kaonic helium; kaonic hydrogen; silicon drift detectors; Area measurement; Electrons; Energy resolution; Mesons; Probes; Silicon; Spectroscopy; Timing; X-ray detection; X-ray detectors; X-ray spectroscopy; kaonic atoms; silicon drift detectors; strong interaction studies;
