Stark shift and parity non-conservation for near-degenerate states of xenon
Abstract: We identify a pair of near-degenerate states of opposite parity in atomic Xe, the $5p5 10s \,\, 2[3/2]_2o$ at $\rm{E}=94759.927$ cm${-1}$ and $5p5 6f \,\, 2[5/2]_2$ at $\rm{E}= 94759.935$ cm${-1}$, for which parity- and time-odd effects are expected to be enhanced by the small energy separation. We present theoretical calculations which indicate narrow widths for both states and we report a calculated value for the weak matrix element, arising from configuration mixing, of $|W|=2.1$ Hz for ${132}$Xe. In addition, we measured the Stark effect of the $5p5\,6f$ $2[5/2]_{2}$ and $5p5 \,6f \ 2[3/2]_2$ ($\rm{E} =94737.121\,\rm{cm}{-1}$) states. The Stark-shift of the $6f$ states is observed to be negative, revealing the presence of nearby $6g$ states at higher energies, which have not been observed before. The Stark-shift measurements imply an upper limit on the weak matrix element of $|W|!<!5$ Hz for the near-degenerate states ($10s \,\, 2[3/2]_2o$ and $6f \,\, 2[5/2]_2$), which is in agreement with the presented calculations.
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