Theory of impulse excitation for Fourier transform mass spectrometry

Previous Fourier transform mass spcctrometry (FT51.S) mcasurcments have commonly utilized frequency swept escitation. This communication describes the first demonstration of random-noise escitation for FTb1.S employing a simple noise acitation source. Characteristics of the source are discussed and

A quadrature method for producing circularly polarized excitation for selective detection of positive or negative ions has been proposed for Fourier-transform ion cyclotron resonance mass spectrometry. The new technique achieves the same post-excitation ion cyclotron orbital radius at half the excit

Broad-band frequency cscitation in Fourier transform mass spcctrometry (IT/MS) has previously been achieved via impulse or frequencyswecp time-domain waveforms. In this paper, WC introduce pseudo-random-noise esciration based on shift register maximal-length sequences. Esperimcntal FT/hlS specrra of

Multidimensional approaches to tandem Fourier transform ion cyclotron resonance (FTICR) mass spectrometry/ mass spectrometry (MSIMS) have been developed in recent years for structural characterization of species in mixtures. One approach, using Hadamard S-matrix encoding of precursor ions followed b