Abstract
The design and operation of a new type of ion trap provides a way to measure mass, charge, and velocity of large individual electrospray ions (>1 MDa, >250 charges) repeatedly during the time the ion is trapped. The trap consists of an image charge detection tube mounted between two ion mirrors. The mirrors are sets of parallel electrodes drilled with holes aligned with the bore of the detector tube. The device relies on voltages applied to the electrodes to establish symmetrically opposing ion focusing mirrors for the purpose of cycling ions through the charge detection tube many times. This design does not use magnetic or radio frequency fields to trap ions. Gating one of the mirrors to 0 V while maintaining voltages appropriate for reflecting ions on the opposite mirror allows an ion to pass through the holes in the mirror and enter the detector tube. A low-noise charge-sensitive amplifier, connected to the tube, reproduces the image charge of individual ions as they pass through the detector tube. Whe...
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