Discontinuous atmospheric pressure interface
An atmospheric pressure and interface technology, applied in the separation of different isotopic elements, electrical components, parts of particle separator tubes, etc., can solve the problem of increasing the final ion flow reaching the mass analyzer, generating arcs, electron multipliers and power supply life Short and other questions
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[0053] For ion trap type mass spectrometers, the pumping capacity cannot be efficiently utilized with conventional normally open APIs. Ions are typically allowed to enter the ion trap for only a portion of each scan cycle, however neutrals are constantly leaking into the vacuum manifold and need to be pumped away to maintain the low pressures typically required for mass analysis. Although mass analysis using ion traps typically requires an ideal pressure of a few millitorr or less, ions can be trapped at pressures much higher than this ideal pressure. (Shaffer, S.A.; Tang, K.Q.; Anderson, G.A.; Prior, D.C.; Udseth, H.R.; Smith, R.D. Rapid Communications in Mass Spectrometry1997, 11, 1813-1817) Using this property of ion traps, an alternative Atmospheric pressure interface, the Discontinuous Atmospheric Pressure Interface (DAPI), to achieve maximum ion transmission at the specified pumping capacity of a mass spectrometer with ion trapping components. The concept of a discrete ...
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