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Precision Spectroscopy of the 9s and 8p levels of Francium. by Seth Aubin. Graduate Students: Eduardo Gomez Kerim Gulyuz Jerry Sell Professors: Luis A. Orozco Gene D. Sprouse Work supported by NSF. University of Toronto. Precision Spectroscopy in Francium. Objective: - PowerPoint PPT Presentation
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Precision Spectroscopyof the 9s and 8p levels
of Francium.
by Seth Aubin
Graduate Students:Eduardo GomezKerim GulyuzJerry Sell
Professors:Luis A. OrozcoGene D. Sprouse
Work supported by NSF
Universityof
Toronto
Precision Spectroscopy in Francium
Objective:
Spectroscopy probes electronic wavefunctions
• Lifetime wavefunctions far from nucleus
• Hyperfine splitting wavefunction near nucleus
Importance:
Francium is the heaviest alkali (Z=87).
Test of wavefunctions in relativistic regime.
Parity non-conservation experiments.
Excitation of the 9s level of 210Fr
E1 decay channels of the 9s and 8p levels
Lifetime Measurements:
Time-correlated Single-photon Counting
~10,000210Fr atoms
9s lifetime data and fit
Results for 9S1/2 Lifetime Error %Statistical ± 0.72TAC/MCA performance < ± 0.04Displacement error from Rb < ± 0.38Quantum beats < ± 0.20Total ± 0.84 %
Opt. Lett. 28, 2055 (2003)
8p lifetimes
Results for 8P3/2 Lifetime Error %Statistical ± 1.05Bayesian (9S1/2) ± 1.44TAC/MCA performance < ± 0.30Contamination shift error ± 0.03Total ± 1.8 %
Results for 8P1/2 Lifetime Error %Statistical ± 2.3Bayesian ± 0.4TAC/MCA performance < ± 0.2Total ± 2.3 %
Hyperfine Splitting (HFS)
Scan probe laser across F=11/2 and F=13/2 hyperfine levels of the 9S1/2 level.
Record fluorescence vs. frequency
Method:
With wavemeter: HFS = 4045.2 1.5 MHz (statistical)
SUMMARY
Measurements of the 9S1/2 lifetime and HFS.
Measurements of the 8P3/2 and 8P1/2 lifetimes.
Theoretical predictions agree with lifetime measurements.
Future: use HFS to extract nuclear g-factor for 210Fr.
