Reducing Background in Laser Spectroscopy Experiments at BECOLA

Hannah Olds; K. Minamisono; J. D. D Lantis; Andrew J Miller; Skyy V Pineda; R. C. Powel; Joel Zuzelski

Reducing Background in Laser Spectroscopy Experiments at BECOLA

POSTER

Abstract

A discontinuity is generally observed in trends of mean-square charge radii at the magic numbers. The discontinuity, however, is missing at the N = 20 neutron magic number for Ar, K and Ca isotopes. The trend of Sc charge radii across N = 20 is therefore of great interest, as it will show the effect on the missing signature caused by one proton in the 1f_7/2 shell outside the ⁴⁰Ca core. As a preliminary step towards the investigation, a hyperfine spectrum of stable ⁴⁵Sc was studied using collinear laser spectroscopy techniques at BECOLA at NSCL/MSU to optimize the laser spectroscopy system. Details of test measurements and results will be discussed.

^*This work is supported in part by NSF Grant No. PHY-10-62410 and PHY-1565546 and the U.S. Department of Energy under Award No. DE-NA0002924.

Presenters

Hannah Olds
- NSCL/Dep. Phys. Astron., MSU

Authors

Hannah Olds
- NSCL/Dep. Phys. Astron., MSU
K. Minamisono
- NSCL/Dep. Phys. Astron., MSU
- Michigan State University
- NSCL
J. D. D Lantis
- NSCL/Dep. Chem., MSU
- Michigan State University
- NSCL
Andrew J Miller
- NSCL/Dep. Phys. Astron., MSU
Skyy V Pineda
- NSCL/Dep. Chem., MSU
R. C. Powel
- NSCL/Dep. Phys. Astron., MSU
- NSCL
Joel Zuzelski
- NSCL/Dep. Phys. Astron., MSU
- Michigan State University