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- Title
Calibration procedure for secular frequency scanning in ion trap mass spectrometers.
- Authors
Snyder, Dalton T.; Pulliam, Christopher J.; Cooks, R. Graham
- Abstract
RATIONALE: Mass spectra can be recorded using ion traps by scanning the frequency of an alternating current (ac) signal that corresponds to the secular frequency of a trapped ion. There is a considerable simplification in the instrumentation needed to perform such a scan compared with conventional scans of the radiofrequency (rf) amplitude. However, mass calibration is difficult. An algorithm that can be used to achieve mass calibration is investigated and the factors that affect ion mass assignments are discussed. METHODS: Time domain data, recorded using a commercial benchtop linear ion trap mass spectrometer, are converted to the m/z domain using ion Mathieu parameter qu values which are derived from the dimensionless frequency parameter βu expressed as a continuing fraction in terms of qu. The relationship between the operating parameters of an ideal ion trap and the ion m/z ratio is derived from the Mathieu equations and expressed as an algorithm which through successive approximations yields the Mathieu qu value and hence m/z values and peak widths. The predictions of the algorithm are tested against experiment by sweeping the frequency of a small supplementary ac signal so as to cause mass-selective ejection of trapped ions. RESULTS: Calibration accuracy is always better than 0.1%, often much better. Peak widths correspond to a mass resolution of 250 to 500 in the m/z 100-1800 range in secular frequency scans. CONCLUSIONS: A simple, effective method of calibration of mass spectra recorded using secular frequency scans is achieved. The effects of rf amplitude, scan rate, and ac amplitude on calibration parameters are shown using LTQ linear ion trap data. Corrections for differences in ion mass must be made for accurate calibration, and this is easily incorporated into the calibration procedure.
- Subjects
ALTERNATING currents; ION traps; MASS spectrometry; RADIOFREQUENCY spectroscopy; CALIBRATION
- Publication
Rapid Communications in Mass Spectrometry: RCM, 2016, Vol 30, Issue 10, p1190
- ISSN
0951-4198
- Publication type
Article
- DOI
10.1002/rcm.7550