The even-parity autoionizing resonance series 4p^5np' [3/2] 1,2, [ 1/2] 1, and 4p^2nf' [5/213 of krytpon have been investigated by laser excitation from the two metastable states 4p55s [3/2]2 and 4p^55s' [1/2]0 in ...The even-parity autoionizing resonance series 4p^5np' [3/2] 1,2, [ 1/2] 1, and 4p^2nf' [5/213 of krytpon have been investigated by laser excitation from the two metastable states 4p55s [3/2]2 and 4p^55s' [1/2]0 in the photon energy region of 2900(P40000 cm^-1 at experimental bandwidth of -0.1 cm-1. The excitation spectra of the even-parity autoionizing resonance series, most of which are experimentally studied for the first time in this work, show typical asymmetric line shapes. Complementary information on level energies, quantum defects, line profile indices and resonance widths, resonance lifetimes and reduced widths of the auto- ionizing resonances are derived by Fano-type line-shape analyses of the experimental results. Results from this work indicate that the line profile index (q) and the resonance width (F) are approximately proportional to the effective principal quantum number (n*); the line separation of the 4p^5np' autoionizing resonances is also in good agreement with theoretical model展开更多
基金financially supported by the National Natural Science Foundation of China(51007092)
文摘The even-parity autoionizing resonance series 4p^5np' [3/2] 1,2, [ 1/2] 1, and 4p^2nf' [5/213 of krytpon have been investigated by laser excitation from the two metastable states 4p55s [3/2]2 and 4p^55s' [1/2]0 in the photon energy region of 2900(P40000 cm^-1 at experimental bandwidth of -0.1 cm-1. The excitation spectra of the even-parity autoionizing resonance series, most of which are experimentally studied for the first time in this work, show typical asymmetric line shapes. Complementary information on level energies, quantum defects, line profile indices and resonance widths, resonance lifetimes and reduced widths of the auto- ionizing resonances are derived by Fano-type line-shape analyses of the experimental results. Results from this work indicate that the line profile index (q) and the resonance width (F) are approximately proportional to the effective principal quantum number (n*); the line separation of the 4p^5np' autoionizing resonances is also in good agreement with theoretical model