A compact sector-type multi-turn time-of-flight mass spectrometer ‘MULTUM II’

## Abstract The mass resolution of a time‐of‐flight (TOF) mass spectrometer is directly proportional to its total flight pathlength. Multi‐turn or multi‐passage ion optical geometries are necessary to obtain fight distances of sufficient length within reasonable size limitations. We have investigat

## Abstract The circuit shape of the ion path, or the multi‐turn, provides a solution for achieving unrestricted mass resolution from time‐of‐flight mass analyzers. The potential of a multi‐turn type mass spectrometer, the MULTUM II, with a 1.308 m circuit controlled by four toroidal electric secto

A new type of multi-turn time-of-flight mass spectrometer was constructed, consisting of four cylindrical electric sectors and 28 electric quadrupole lenses, the size of the vacuum chamber being 60 × 70 × 20 cm. It was demonstrated that the mass resolution can be increased according to the number of

High-energy collision-induced dissociation of phosphopeptides using a multi-turn tandem time-of-flight mass spectrometer 'MULTUM-TOF/TOF' A multi-turn tandem time-of-flight mass spectrometer (MULTUM-TOF/TOF) has been designed and constructed at Osaka University. 1,2 The MULTUM-TOF/TOF consists of a

The ion optics of multi-turn time-of-Ñight (TOF) mass spectrometry was investigated. Two feasible systems using toroidal sector plus quadrupole lenses and cylindrical sectors plus quadrupole doublets were found. The combination of a linear TOF with a Ðgure-of-eight type multi-turn system is proposed