IMPROVEMENT OF THE ELECTRIC-FIELD IN THE CYLINDRICAL TRAPPED-ION CELL

This paper reports improvement of the electric field in the cylindrical Fourier transform ion cyclotron resonance (FT-ICR) trapped-ion cell. We have designed a cell in which the trapping plates of the conventional cell are replaced by three pairs of electrodes with circular apertures of different radii and the potential applied to each pair of electrodes is independently controlled. Theoretical analysis of the electric fields in both the conventional and improved cells has been made. Experimental results on the drift motion of ions due to the inhomogeneity of electric field are presented. Comparison between the conventional and the improved cell demonstrates a significant increase in the uniformity of the electric field. Enhancement of the signal intensity and resolution in the FT-ICR spectrum is observed.