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Modeling of a linear ion trap with driving rectangular waveforms

Authors:	A I Ivanov A A Sysoev A N Konenkov N V Konenkov

Institution:	1. Ryazan State University named after S.A. Esenin, Ryazan, Russia;2. Laboratory of Applied Ion Physics and Mass Spectrometry, National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Moscow, Russia

Abstract:	We consider the operation of a digital linear ion trap with resonant radial ejection. A sequence of rectangular voltage pulses with a dipole resonance signal is applied to the trap electrodes. The periodic waveform is piecewise constant, has zero mean, and is determined by an asymmetry parameter $d $$ d $$$ : one value is taken on interval $(0, dT) $$ \left(0, dT\right) $$$ and another on $(dT, T) $$ \left( dT,T\right) $$$ , where $T $$ T $$$ is the RF period. Ion mass scanning is performed by varying the asymmetry parameter $d $$ d $$$ and amplitude of the negative pulse part with time. The ion oscillation frequencies and acceptance of the linear trap are calculated. The dependence of the ion mass to charge ratio $m / z $$ m/z $$$ on the parameter $d $$ d $$$ is $m / z ~ d^{2} $$ m/z\sim {d}^2 $$$ . The maximum value is about $m / z = 30 $$ m/z=30 $$$ kDa for typical parameters of the linear trap: frequency 0.5 MHz, rod radius 4 mm, and negative pulse amplitude 1 kV. The dipolar excitation frequency is 0.125 MHz at which the LIT acceptance is maximal.

Keywords:	digital linear ion trap ion oscillation frequencies mass range rectangular waveform trap acceptance trap operating parameters

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