Electric field induced anomalies in frequency shift and collisional perturbations in the 5snd 1D2 Rydberg series of strontium in a heatpipe setup with ionization detection

Abstract

We have examined the effect of weak DC electric field (2–20 V/cm) complimented by foreign gas collisions on the bound J = 2 even-parity 5snd 1 D 2 Rydberg states of neutral strontium . We use resonant two-photon transverse excitation, employing a narrow bandwidth tunable dye laser and an atomic jet in a heatpipe setup with ionization detection. In this paper we report certain anomalies in the observed spectra covering principal quantum number range n = 27–42 indicating a frequency shift reversal with nearly quadratic dependence on the field strength above an anti-resonance region. Furthermore, we have observed the emergence of highly localized doubly-excited 4d 2 states, including a remarkably broad perturber with large angular momentum , uncovering orbital contraction effect. This non-Rydberg excitation, which intrudes upon the two-photon spectrum with large energy overlap is due to single-photon excitations from the 5s5p 1 P 1 resonance level following molecular dissociation of the Sr 2 dimers suitably governed by binary atomic collisions . Our study which involves laser excitation complimented by electric field and collisions using inexpensive home-made setup opens up the possibilities for a new class of experiments, with considerable simplicity in the choice of excitation schemes for both Rydberg and non-Rydberg transitions, to reach states lying at high energies which cannot otherwise be accessed from the ground state due to parity and selection rules, while allowing one to probe localization properties of atomic wave functions.