A new ion trap is constructed of a cylindrical ring electrode and hyperboli
c end caps. The premise is to determine the effect ring electrode geometry
has on the operation of the ion trap. A model for the potential and electri
c held within the trap is developed. The model is used to show how adjustin
g the geometric parameters of the cell could be used to reduce the presence
of higher order fields or optimize other desired properties. The stability
diagram is mapped experimentally and using the standard definition for q(z
), the q(eject) was determined to be 0.76. A proposed modification for the
definition of q(z), which adjusts for the shape of the cylindrical ring ele
ctrode, results in a q(eject) of 0.93. The trap is shown to have a linear s
canning relationship, resolved isolation and unit mass resolution. (Int J M
ass Spectrom 190/191 (1999) 47-57) (C) 1999 Elsevier Science B.V.