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Main Experiment Table

Our ultracold atoms of sodium and lithium are produced here. They begin as hot gases at >300 degrees Celsius in a dual-species oven. Both types of atoms travel down a Zeeman slower and are captured by overlapping magneto-optical traps (MOT) consisting of yellow and red lasers tuned to sodium and lithium transition frequencies respectively. After being cooled to micro-Kelvin temperatures in the MOT, our atoms are transferred into a magnetic trap and evaporatively cooled to nano-Kelvin temperatures.

Dual-Species Oven

Optical Setup for Magneto-Optical Trap (MOT)
The laser beams required to form our MOT are produced on separate laser tables and delivered to the main experiment table by optical fibers. Yellow light for sodium atoms is produced by a dye laser, which is in turn pumped by a 10 W green solid-state laser. Red light for lithium atoms is produced by a set of laser diodes. The lasers are maintained at a fixed reference frequency by locking to the absorption spectra of a vapour cell filled with either sodium or lithium atoms. Additional, predetermined frequency shifts to produce the various laser beams required for cooling, pumping, and imaging are achieved by sending light through acousto-optical or electro-optical modulators.

Science Chamber