Production of cold formaldehyde molecules for study and control of chemical reaction dynamics with hydroxyl radicals
Abstract
We propose a method for controlling a class of low temperature chemical reactions. Specifically, we show the hydrogen abstraction channel in the reaction of formaldehyde (H2CO) and the hydroxyl radical (OH) can be controlled through either the molecular state or an external electric field. We also outline experiments for investigating and demonstrating control over this important reaction. To this end, we report the first Stark deceleration of the H2CO molecule. We have decelerated a molecular beam of H2CO essentially to rest, producing cold molecule packets at a temperature of 100 mK with a few million molecules in the packet at a density of 106 cm-3.
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