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• Fourier_transform_ion_cyclotron_resonance abstract "Fourier transform ion cyclotron resonance mass spectrometry is a type of mass analyzer (or mass spectrometer) for determining the mass-to-charge ratio (m/z) of ions based on the cyclotron frequency of the ions in a fixed magnetic field. The ions are trapped in a Penning trap (a magnetic field with electric trapping plates) where they are excited (at their resonant cyclotron frequencies) to a larger cyclotron radius by an oscillating electric field orthogonal to the magnetic field. After the excitation field is removed, the ions are rotating at their cyclotron frequency in phase (as a "packet" of ions). These ions induce a charge (detected as an image current) on a pair of electrodes as the packets of ions pass close to them. The resulting signal is called a free induction decay (FID), transient or interferogram that consists of a superposition of sine waves. The useful signal is extracted from this data by performing a Fourier transform to give a mass spectrum. There are many mass spectrometry ionization techniques that undergo a Fourier transform, therefore it is incorrect to refer to this technique as Fourier transform mass spectrometry. Fourier transform ion cyclotron resonance (FTICR) mass spectrometry is a very high resolution technique that can be used to determine masses with very high accuracy. Many applications of FTICR-MS use this mass accuracy to help determine the composition of molecules based on accurate mass. This is possible due to the mass defect of the elements. FTICR-MS is able to achieve higher levels of resolution than other forms of mass spectrometer, in part, because a superconducting magnet is much more stable than RF (radio frequency) voltage. Another place that FTICR-MS is useful is in dealing with complex mixtures since the resolution (narrow peak width) allows the signals of two ions of similar mass to charge (m/z) to be detected as distinct ions. This high resolution is also useful in studying large macromolecules such as proteins with multiple charges which can be produced by electrospray ionization. For example, attomole level of detection of two peptides has been reported . These large molecules contain a distribution of isotopes that produce a series of isotopic peaks. Because the isotopic peaks are close to each other on the m/z axis, due to the multiple charges, the high resolving power of the FTICR is extremely useful.FTICR-MS differs significantly from other mass spectrometry techniques in that the ions are not detected by hitting a detector such as an electron multiplier but only by passing near detection plates. Additionally the masses are not resolved in space or time as with other techniques but only by the cyclotron (rotational) frequency that each ion produces as it rotates in a magnetic field. Thus, the different ions are not detected in different places as with sector instruments or at different times as with time-of-flight instruments but all ions are detected simultaneously during the detection interval. This provides an increase in the observed signal to noise ratio owing to the principles of Fellgett's advantage. In FTICR-MS, resolution can be improved either by increasing the strength of the magnet (in teslas) or by increasing the detection duration.".
• Fourier_transform_ion_cyclotron_resonance thumbnail LTQ-FTICR.jpg?width=300.
• Fourier_transform_ion_cyclotron_resonance wikiPageExternalLink fticr-massspec.html.
• Fourier_transform_ion_cyclotron_resonance wikiPageExternalLink fticr.
• Fourier_transform_ion_cyclotron_resonance wikiPageExternalLink icr.
• Fourier_transform_ion_cyclotron_resonance wikiPageExternalLink www.sircams.ed.ac.uk.
• Fourier_transform_ion_cyclotron_resonance wikiPageID "2182716".
• Fourier_transform_ion_cyclotron_resonance wikiPageRevisionID "592912054".
• Fourier_transform_ion_cyclotron_resonance acronym "FTICR".
• Fourier_transform_ion_cyclotron_resonance caption "A FTMS instrument at the Pacific Northwest National Laboratory, USA".
• Fourier_transform_ion_cyclotron_resonance classification Mass_spectrometry.
• Fourier_transform_ion_cyclotron_resonance hasPhotoCollection Fourier_transform_ion_cyclotron_resonance.
• Fourier_transform_ion_cyclotron_resonance name "Fourier transform ion cyclotron resonance".
• Fourier_transform_ion_cyclotron_resonance related Ion_trap.
• Fourier_transform_ion_cyclotron_resonance related Orbitrap.
• Fourier_transform_ion_cyclotron_resonance related Penning_trap.
• Fourier_transform_ion_cyclotron_resonance related Quadrupole_ion_trap.
• Fourier_transform_ion_cyclotron_resonance subject Category:Mass_spectrometry.
• Fourier_transform_ion_cyclotron_resonance subject Category:Measuring_instruments.
• Fourier_transform_ion_cyclotron_resonance type Abstraction100002137.
• Fourier_transform_ion_cyclotron_resonance type Act100030358.
• Fourier_transform_ion_cyclotron_resonance type Activity100407535.
• Fourier_transform_ion_cyclotron_resonance type Analysis100634276.
• Fourier_transform_ion_cyclotron_resonance type ChemicalAnalysis100646833.
• Fourier_transform_ion_cyclotron_resonance type Event100029378.
• Fourier_transform_ion_cyclotron_resonance type Investigation100633864.
• Fourier_transform_ion_cyclotron_resonance type PsychologicalFeature100023100.
• Fourier_transform_ion_cyclotron_resonance type Work100575741.
• Fourier_transform_ion_cyclotron_resonance type YagoPermanentlyLocatedEntity.
• Fourier_transform_ion_cyclotron_resonance comment "Fourier transform ion cyclotron resonance mass spectrometry is a type of mass analyzer (or mass spectrometer) for determining the mass-to-charge ratio (m/z) of ions based on the cyclotron frequency of the ions in a fixed magnetic field. The ions are trapped in a Penning trap (a magnetic field with electric trapping plates) where they are excited (at their resonant cyclotron frequencies) to a larger cyclotron radius by an oscillating electric field orthogonal to the magnetic field.".
• Fourier_transform_ion_cyclotron_resonance label "Analizator cyklotronowego rezonansu jonów z fourierowską transformacją wyników".
• Fourier_transform_ion_cyclotron_resonance label "Analizzatore a risonanza ionica ciclotronica a trasformata di Fourier".
• Fourier_transform_ion_cyclotron_resonance label "Fourier transform ion cyclotron resonance".
• Fourier_transform_ion_cyclotron_resonance label "Масс-анализатор ионно-циклотронного резонанса с Фурье-преобразованием".
• Fourier_transform_ion_cyclotron_resonance label "傅里叶变换离子回旋共振质谱法".
• Fourier_transform_ion_cyclotron_resonance sameAs Analizzatore_a_risonanza_ionica_ciclotronica_a_trasformata_di_Fourier.
• Fourier_transform_ion_cyclotron_resonance sameAs Analizator_cyklotronowego_rezonansu_jonów_z_fourierowską_transformacją_wyników.
• Fourier_transform_ion_cyclotron_resonance sameAs m.06t2ks.
• Fourier_transform_ion_cyclotron_resonance sameAs Q2400735.
• Fourier_transform_ion_cyclotron_resonance sameAs Q2400735.
• Fourier_transform_ion_cyclotron_resonance sameAs Fourier_transform_ion_cyclotron_resonance.
• Fourier_transform_ion_cyclotron_resonance wasDerivedFrom Fourier_transform_ion_cyclotron_resonance?oldid=592912054.
• Fourier_transform_ion_cyclotron_resonance depiction LTQ-FTICR.jpg.
• Fourier_transform_ion_cyclotron_resonance isPrimaryTopicOf Fourier_transform_ion_cyclotron_resonance.