Heating rate in a linear quadrupole trap
Abstract
In radio-frequency trap, the temperature of ion ensembles converges towards a hot equilibrium due to radio-frequency heating. This effect is detrimental to the stability of trapped ensembles and is the justification of cooling. The intensity of this radio-frequency heating increases with the amplitude of the radio-frequency field qx. Using an analytical empirical formula, we show that the lifetime of the ion ensemble t0 under cold condition increases with qx according to a power law t0 qxA, and does not vary significantly for the several ion quantities N tested. The temperature of the explosive onset B decreases linearly with qx. We also show that non-linear instabilities due to trapping parameters decreases t0 and B, and produce a local increase of heating rate for certain temperature ranges.
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