Efficient water-cooled Bitter-type electromagnet for Zeeman slowing in cold-atom experiments

Abstract

We describe the design, construction, and characterization of a Bitter-type electromagnet that produces a spatially-dependent magnetic field used for Zeeman slowing in cold-atom experiments. The coil consists of stacked copper arcs separated by PTFE spacers of varying thicknesses, generating a near-optimal field profile using a single power supply. With an electrical resistance of 26.5(3)~m and self-inductance of 19.1(1)~μH, our design achieves a fast electrical switching time of τ ≈ 100~μs in a compact, 30-cm-long package. Water circulating helically through holes in the copper and channels in the spacers ensures efficient thermal management, limiting the temperature rise to 5~C over 36~s of continuous operation at 200~A.

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