Short-Lived Radioactive Molecules
Precision measurements of molecular systems provide highly sensitive laboratories for exploring the possible violation of fundamental symmetries and search for new physics beyond the standard model physics [Barr14,Demi17,Safr18]. Radioactive molecules compound of heavy and deformed short-lived isotopes are predicted to offer unprecedented sensitivity to investigate parity and time reversal violation effects. However, the experimental knowledge of short-lived radioactive molecules is scarce, and quantum chemistry calculations has constituted the only source of spectroscopy information.
[Barr14] Barry, J. et al. Nature 512, 286 (2014).
[Demi17] DeMille et al. Science 357, 990 (2017).
[Safr18] Safronova et al. Rev Mod Phys 90, 025008 (2018).
EXPERIMENTAL PROPOSALS
9. "Rotational and Hyperfine Structure of RaF Molecules"
R.F. Garcia Ruiz et al.
8. "Symmetry‐energy constraints from the charge‐radius difference of the mirror pair 32Ar‐32Si"
R.F. Garcia Ruiz et al.
7. "Collinear resonance ionization spectroscopy of RaF molecules"
R.F. Garcia Ruiz et al.
CERN-INTC-2018-017 / INTC-P-546 (2018).
6. "Laser spectroscopy studies of light nuclei"
R.F. Garcia Ruiz et al.
CERN-INTC-2017-056 / INTC-I-189 (2017).
5. "Laser Spectroscopy of exotic neutron-deficient indium (Z= 49)isotopes: approaching N= 50"
R.F. Garcia Ruiz et al.
CERN-INTC-2017-055 / INTC-P-504-ADD-1 (2017).
4. "Charge radii and moments of 43−50Sc, crossing N=28, measured with bunched beam collinear laser
spectroscopy at COLLAPS"
X. Yang, R.F. Garcia Ruiz et al.
CERN-INTC-2017-087 ; INTC-P-528(2017).
3. "Laser Spectroscopy of exotic indium (Z= 49) isotopes:Approaching the N= 50 and N= 82
neutron numbers"
R.F. Garcia Ruiz et al.
CERN-INTC-2017-025 / INTC-P-504 (2017).
2. "Laser Spectroscopy of neutron-deficient Sn isotopes"
R.F. Garcia Ruiz et al.
CERN-INTC-2016-006 / INTC-P-456 (2016).
1. "Towards laser spectroscopy of exotic fluorine isotopes"
R.F. Garcia Ruiz et al.