PROGRESS ON OPTICAL ROTATIONAL COOLING OF SiO+

Stollenwerk, Patrick R

Permalink

https://hdl.handle.net/2142/79259 Copy

Description

Title

PROGRESS ON OPTICAL ROTATIONAL COOLING OF SiO+

Author(s)

Stollenwerk, Patrick R

Contributor(s)

• Odom, Brian C.
• Lin, Yen-Wei

Issue Date

25-Jun-15

Keyword(s)

Cold/Ultracold/Matrices/Droplets

Abstract

Producing ultracold molecules is the first step in precision molecular spectroscopy. Here we present some of the challenges and advantages of SiO+ as well as some of our progress toward meeting those challenges. To demonstrate ground state SiO+, we first load about 100 SiO+ via 2+1 REMPI into an ion trap. Translational motion of SiO+ is then sympathetically cooled by co-trapped Ba+, which is laser cooled. To prepare the population into the ground state, we optically pump the P-branch (rotational cooling transitions) in the B:$Sigma$(v�=0) $leftarrow$ X:$Sigma$(v=0) band with broadband radiation. Because the band is highly diagonal, population can be effectively driven into the rotational ground state before falling into other manifolds. The broadband source, a fs laser, is spectrally filtered using an ultrashort pulse shaping technique to drive only the P-branch. Attention must be paid when aligning the optics to obtain sufficient masking resolution. We have achieved 3 cm$^{-1}$ resolution, which is sufficient to modify a broadband source for rotationally cooling SiO+.

Publisher

International Symposium on Molecular Spectroscopy

Type of Resource

text

Language

English

Permalink

http://hdl.handle.net/2142/79259

Owning Collections