Collisional damping affects the relationship between ion mass and effective cyclotron frequency in Fourier transform mass spectrometry. The exact mass calibration equation(m/z=A/f+(mneutral/m^^+mneut...Collisional damping affects the relationship between ion mass and effective cyclotron frequency in Fourier transform mass spectrometry. The exact mass calibration equation(m/z=A/f+(mneutral/m^^+mneutral)k+B/f(f+(mneutral/m^^+mneutralk))was therefore derived from the characteristic equation of system model, force=m(dv/dt)=qE-qv×B0-ξv,a frictional damping force), in which k is amended by the shift of observed frequency of matrix ion or other known ion in external calibration. The mass obtained by the amended calibration equation is therefore immune to collisional damping and space-charge effects on mass accuracy. The relative errors of ion mass measured were all less than 2×10^-6.展开更多
文摘Collisional damping affects the relationship between ion mass and effective cyclotron frequency in Fourier transform mass spectrometry. The exact mass calibration equation(m/z=A/f+(mneutral/m^^+mneutral)k+B/f(f+(mneutral/m^^+mneutralk))was therefore derived from the characteristic equation of system model, force=m(dv/dt)=qE-qv×B0-ξv,a frictional damping force), in which k is amended by the shift of observed frequency of matrix ion or other known ion in external calibration. The mass obtained by the amended calibration equation is therefore immune to collisional damping and space-charge effects on mass accuracy. The relative errors of ion mass measured were all less than 2×10^-6.
