Magnetic-field Control of the Ultracold Chemistry of Simple Molecules

New experimental techniques continue to bring new molecular species into the ultracold regime. At these temperatures, modest external fields can significantly affect collisions. We theoretically explore the ultracold quantum chemistry of simple molecules, including the benchmark chemical reaction of F + H$_2$. We find that resonances that exist in the van der Waals wells of entrance channels can be manipulated by magnetic fields, thus affecting the ability of the reactants to tunnel through the chemical barrier. We focus on the possibility of ultracold Fano-Feshbach resonances and their ability to affect the distribution of product states.