Description |
1 online resource (780 pages) |
Contents |
Front Cover; Fundamentals and Applications of Fourier Transform mass Spectrometry; Copyright; Contents; Contributors; Foreword; Preface; Acknowledgments; Section A: Historical chapters; Chapter 1: Historical developments in Fourier transform ion cyclotron resonance mass spectrometry; Introduction; Developments before 1970; 1965; 1966; 1967; 1968; 1969; Developments from 1970 to 1980; 1970; 1971; 1972; 1973; 1974; 1975; 1976; 1977; 1978; 1979; 1980; Developments from 1981 to 1990; Developments from 1991 to 2000; Developments from 2001; Conclusion; References |
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Section B: Fundamental/technology chaptersChapter 2: Fundamentals of Orbitrap analyzer; Principles of operation; Non-ideal orbital traps and their calibration; Advances in signal processing; Fourier transform methods; Autocorrelation methods; Maximum likelihood parameter estimators; Deconvolution method; Evolution of the Orbitrap platform and selected applications; Acknowledgments; References; Chapter 3: Fundamentals, strengths, and future directions for Fourier transform ion cyclotron resonance mass spectrometry; FT-ICR fundamentals; Significant recent developments in FT-ICR; References |
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Chapter 4: Fundamentals and simulations in FT-ICR-MSIon motion in the electromagnetic field; Ion motion in traps with quadrupolar type field distribution; The detection of induced signal by cylindrical geometry electrodes; Harmonics and multiple electrode detection; The influence of inharmonicity of electrostatic field and inhomogeneity of the magnetic field on ion motion synchronization ... ; Ion traps with dynamic harmonization; Coalecsence; Conclusion; References; Chapter 5: Advanced fundamentals in Fourier transform mass spectrometry; ICR and Orbitrap FTMS: A preamble |
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Mass spectra processing: From a single to a summed (averaged) mass spectrumRepresentation of mass spectra in full and reduced profile modes; FTMS resolution performance: Orbitrap and ICR; Conclusions; Acknowledgments; References; Chapter 6: Data processing and automation in Fourier transform mass spectrometry; Introduction; Noise and de-noising in FTMS; Correct assignment of chemically relevant peaks in FTMS; Magnitude mode detection in FT-ICR-MS; Absorption mode detection in FT-ICR-MS; Non-Fourier transform techniques; Apodization; Calibration |
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The physics behind the need of additional terms in the calibration equationFurther developed external calibration equations; Beat patterns in time-domain FTMS transients [121]; FT artifacts in FTMS and their implications on data processing; Batch processing of FTMS mass spectra; Automation of FTMS instruments; Acknowledgments; References; Chapter 7: Fundamentals of two dimensional Fourier transform mass spectrometry; Introduction; Contemporary FT-ICR mass spectrometers and tandem mass spectrometry; Mass spectrometry in the second dimension; Interpretation of a 2D mass spectrum; Noise in 2D-MS |
Notes |
Resolving power and mass accuracy |
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Print version record |
Subject |
Fourier transform spectroscopy.
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Mass spectrometry -- Methodology
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Fourier transform spectroscopy
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Form |
Electronic book
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Author |
Schmitt-Kopplin, Philippe
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Kanawati, Basem
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ISBN |
0128140143 |
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9780128140147 |
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