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Cyclotron Phase-Coherent Ion Spatial Dispersion in a Non-Quadratic Trapping Potential is Responsible for FT-ICR MS at the Cyclotron Frequency
by
Kozhinov, Anton N.
, Nagornov, Konstantin O.
, Tsybin, Yury O.
in
Analytical Chemistry
/ APERTURES
/ Bioinformatics
/ Biotechnology
/ Chemistry
/ Chemistry and Materials Science
/ CYCLOTRON FREQUENCY
/ Cyclotron resonance
/ Dispersion
/ Electrodes
/ Elliptical cylinders
/ EXCITATION
/ FOURIER TRANSFORMATION
/ Fourier transforms
/ HARMONICS
/ INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY
/ ION CYCLOTRON-RESONANCE
/ ION DETECTION
/ ION DRIFT
/ Ion motion
/ IONS
/ MAGNETIC FIELDS
/ Magnetic resonance
/ MAGNETRONS
/ Mass spectrometry
/ MASS SPECTROSCOPY
/ Organic Chemistry
/ Oscillators
/ Proteomics
/ Research Article
/ SIMULATION
/ Trapping
2018
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Cyclotron Phase-Coherent Ion Spatial Dispersion in a Non-Quadratic Trapping Potential is Responsible for FT-ICR MS at the Cyclotron Frequency
by
Kozhinov, Anton N.
, Nagornov, Konstantin O.
, Tsybin, Yury O.
in
Analytical Chemistry
/ APERTURES
/ Bioinformatics
/ Biotechnology
/ Chemistry
/ Chemistry and Materials Science
/ CYCLOTRON FREQUENCY
/ Cyclotron resonance
/ Dispersion
/ Electrodes
/ Elliptical cylinders
/ EXCITATION
/ FOURIER TRANSFORMATION
/ Fourier transforms
/ HARMONICS
/ INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY
/ ION CYCLOTRON-RESONANCE
/ ION DETECTION
/ ION DRIFT
/ Ion motion
/ IONS
/ MAGNETIC FIELDS
/ Magnetic resonance
/ MAGNETRONS
/ Mass spectrometry
/ MASS SPECTROSCOPY
/ Organic Chemistry
/ Oscillators
/ Proteomics
/ Research Article
/ SIMULATION
/ Trapping
2018
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Cyclotron Phase-Coherent Ion Spatial Dispersion in a Non-Quadratic Trapping Potential is Responsible for FT-ICR MS at the Cyclotron Frequency
by
Kozhinov, Anton N.
, Nagornov, Konstantin O.
, Tsybin, Yury O.
in
Analytical Chemistry
/ APERTURES
/ Bioinformatics
/ Biotechnology
/ Chemistry
/ Chemistry and Materials Science
/ CYCLOTRON FREQUENCY
/ Cyclotron resonance
/ Dispersion
/ Electrodes
/ Elliptical cylinders
/ EXCITATION
/ FOURIER TRANSFORMATION
/ Fourier transforms
/ HARMONICS
/ INSTRUMENTATION RELATED TO NUCLEAR SCIENCE AND TECHNOLOGY
/ ION CYCLOTRON-RESONANCE
/ ION DETECTION
/ ION DRIFT
/ Ion motion
/ IONS
/ MAGNETIC FIELDS
/ Magnetic resonance
/ MAGNETRONS
/ Mass spectrometry
/ MASS SPECTROSCOPY
/ Organic Chemistry
/ Oscillators
/ Proteomics
/ Research Article
/ SIMULATION
/ Trapping
2018
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Cyclotron Phase-Coherent Ion Spatial Dispersion in a Non-Quadratic Trapping Potential is Responsible for FT-ICR MS at the Cyclotron Frequency
Journal Article
Cyclotron Phase-Coherent Ion Spatial Dispersion in a Non-Quadratic Trapping Potential is Responsible for FT-ICR MS at the Cyclotron Frequency
2018
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Overview
Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS) at the cyclotron frequency instead of the reduced cyclotron frequency has been experimentally demonstrated using narrow aperture detection electrode (NADEL) ICR cells. Here, based on the results of SIMION simulations, we provide the initial mechanistic insights into the cyclotron frequency regime generation in FT-ICR MS. The reason for cyclotron frequency regime is found to be a new type of a collective motion of ions with a certain dispersion in the initial characteristics, such as pre-excitation ion velocities, in a highly non-quadratic trapping potential as realized in NADEL ICR cells. During ion detection, ions of the same
m/z
move in phase for cyclotron ion motion but out of phase for magnetron (drift) ion motion destroying signals at the fundamental and high order harmonics that comprise reduced cyclotron frequency components. After an initial magnetron motion period, ion clouds distribute into a novel type of structures – ion slabs, elliptical cylinders, or star-like structures. These structures rotate at the Larmor (half-cyclotron) frequency on a plane orthogonal to the magnetic field, inducing signals at the true cyclotron frequency on each of the narrow aperture detection electrodes. To eliminate the reduced cyclotron frequency peak upon dipolar ion detection, a number of slabs or elliptical cylinders organizing a star-like configuration are formed. In a NADEL ICR cell with quadrupolar ion detection, a single slab or an elliptical cylinder is sufficient to minimize the intensity of the reduced cyclotron frequency components, particularly the second harmonic.
Graphical Abstract
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Publisher
Springer US,Springer Nature B.V
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