Search for parity nonconserving optical rotation in atomic samarium
PHYSICAL REVIEW A 58:5 (1998) 3457-3471
High-precision relative oscillator strength measurements in Sm I by absorption spectroscopy
Physica Scripta T 70 (1997) 145-150
Abstract:
We have measured relative oscillator strengths for a series of electric dipole transitions in Sm I using laser absorption spectroscopy. The 154Sm-152Sm isotope shift in the transitions is also obtained from the data. The transitions originate from levels of the ground term, and are near companions to magnetic dipole transitions of interest for atomic parity non-conservation. The relative f values have been converted to absolute values using the known lifetime of one of the Sm energy levels, for which our relative measurements give the branching ratios for transitions to the ground term (neglecting weak infra-red transitions to higher-lying states).Atomic parity non-conservation: Recent measurements in bismuth and samarium
(1995) 424-428
Abstract:
We give a brief introduction to the study of parity non-conserving effects in atoms. We describe the optical rotation experiments carried out in Oxford, and summarize recent results for bismuth and work in progress on samarium.Atomic parity non-conservation: Recent measurements in bismuth and samarium
PHYS SCRIPTA T59 (1995) 424-428
Abstract:
We give a brief introduction to the study of parity non-conserving effects in atoms. We describe the optical rotation experiments carried out in Oxford, and summarize recent results for bismuth and work in progress on samarium.HYPERFINE-STRUCTURE, PRESSURE SHIFT AND PRESSURE BROADENING IN THE 648-NM TRANSITION OF ATOMIC BISMUTH BY FARADAY SPECTROSCOPY
JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS 27:22 (1994) 5497-5506