Milestones in fourier transform ion cyclotron resonance mass spectrometry technique development

[1]  S. Carr,et al.  Mass Spectrometry in Biology & Medicine , 2000, Humana Press.

[2]  A G Marshall,et al.  Stable isotope incorporation triples the upper mass limit for determination of elemental composition by accurate mass measurement , 2000, Journal of the American Society for Mass Spectrometry.

[3]  Richard D. Smith,et al.  Obtaining more accurate Fourier transform ion cyclotron resonance mass measurements without internal standards using multiply charged ions , 2000, Journal of the American Society for Mass Spectrometry.

[4]  F. McLafferty,et al.  Automated reduction and interpretation of , 2000, Journal of the American Society for Mass Spectrometry.

[5]  N. Kelleher From primary structure to function: biological insights from large-molecule mass spectra. , 2000, Chemistry & biology.

[6]  Michael A. Freitas,et al.  Comparison and interconversion of the two most common frequency-to-mass calibration functions for Fourier transform ion cyclotron resonance mass spectrometry , 2000 .

[7]  F. McLafferty,et al.  Electron capture dissociation for structural characterization of multiply charged protein cations. , 2000, Analytical chemistry.

[8]  A. Marshall,et al.  Digital quadrature heterodyne detection for high-resolution fourier transform ion cyclotron resonance mass spectrometry , 1999 .

[9]  C. Hendrickson,et al.  Gas phase activation energy for unimolecular dissociation of biomolecular ions determined by focused RAdiation for gaseous multiphoton ENergy transfer (FRAGMENT) , 1999, Rapid communications in mass spectrometry : RCM.

[10]  S. Guan,et al.  Matrix-shimmed ion cyclotron resonance ion trap simultaneously optimized for excitation, detection, quadrupolar axialization, and trapping , 1999 .

[11]  F W McLafferty,et al.  Biomolecule Mass Spectrometry , 1999, Science.

[12]  A. Marshall,et al.  Fourier transform ion cyclotron resonance mass spectrometry in a high homogeneity 25 tesla resistive magnet , 1999 .

[13]  E. P. Maziarz,et al.  Electrospray Ionization Fourier Transform Mass Spectrometry of Macromolecules: The First Decade , 1999 .

[14]  A. Marshall,et al.  Resolution, Elemental Composition, and Simultaneous Monitoring by Fourier Transform Ion Cyclotron Resonance Mass Spectrometry of Organosulfur Species before and after Diesel Fuel Processing , 1998 .

[15]  A. Marshall,et al.  Counting individual sulfur atoms in a protein by ultrahigh-resolution Fourier transform ion cyclotron resonance mass spectrometry: experimental resolution of isotopic fine structure in proteins. , 1998, Proceedings of the National Academy of Sciences of the United States of America.

[16]  Jesse A. Willett,et al.  Electrospray ionization—Fourier transform ion cyclotron resonance mass spectrometry at 11.5 tesla: Instrument design and initial results , 1998, Journal of the American Society for Mass Spectrometry.

[17]  A. Marshall,et al.  Identification, Composition, and Asymmetric Formation Mechanism of Glycidyl Methacrylate/Butyl Methacrylate Copolymers up to 7000 Da from Electrospray Ionization Ultrahigh-Resolution Fourier Transform Ion Cyclotron Resonance Mass Spectrometry. , 1998, Analytical chemistry.

[18]  M. Emmett,et al.  Application of micro-electrospray liquid chromatography techniques to FT-ICR MS to enable high-sensitivity biological analysis , 1998, Journal of the American Society for Mass Spectrometry.

[19]  F. McLafferty,et al.  Electron Capture Dissociation of Multiply Charged Protein Cations. A Nonergodic Process , 1998 .

[20]  Zhongqi Zhang,et al.  A universal algorithm for fast and automated charge state deconvolution of electrospray mass-to-charge ratio spectra , 1998, Journal of the American Society for Mass Spectrometry.

[21]  E. Williams,et al.  Tandem FTMS of Large Biomolecules. , 1998, Analytical chemistry.

[22]  T. Mcmahon,et al.  Activation of Unimolecular Reactions by Ambient Blackbody Radiation , 1998 .

[23]  B. Reinhold,et al.  Two-plate vs. four-plate azimuthal quadrupolar excitation for FT-ICR mass spectrometry , 1997 .

[24]  S. Guan,et al.  Effect of ion-neutral collision mechanism on the trapped-ion equation of motion: a new mass spectral line shape for high-mass trapped ions , 1997 .

[25]  M. Senko,et al.  External accumulation of ions for enhanced electrospray ionization fourier transform ion cyclotron resonance mass spectrometry , 1997 .

[26]  S. Guan,et al.  A combined linear ion trap for mass spectrometry , 1997 .

[27]  S. Guan,et al.  Sympathetic cooling of trapped negative ions by self-cooled electrons in a fourier transform ion cyclotron resonance mass spectrometer , 1997 .

[28]  J. Futrell,et al.  Tandem fourier transform mass spectrometry studies of surface-induced dissociation of benzene monomer and dimer ions on a self-assembled fluorinated alkanethiolate monolayer surface. , 1997, Analytical chemistry.

[29]  S. Guan,et al.  Enhancement of the effective resolution of mass spectra of high-mass biomolecules by maximum entropy-based deconvolution to eliminate the isotopic natural abundance distribution , 1997 .

[30]  John T. Stults,et al.  Minimizing peak coalescence : High-resolution separation of isotope peaks in partially deamidated peptides by matrix-assisted laser desorption/ionization Fourier transform ion cyclotron resonance mass spectrometry , 1997 .

[31]  Scott A. McLuckey,et al.  SPECIAL FEATURE:TUTORIAL Slow Heating Methods in Tandem Mass Spectrometry , 1997 .

[32]  F. McLafferty,et al.  Unit resolution mass spectra of 112 kDa molecules with 3 Da accuracy , 1997 .

[33]  A. Marshall,et al.  Linear prediction Cholesky decomposition vs Fourier transform spectral analysis for ion cyclotron resonance mass spectrometry. , 1997, Analytical chemistry.

[34]  S. Guan,et al.  Linearity and quadrupolarity of tetragonal and cylindrical penning traps of arbitrary length-to-width ratio , 1997 .

[35]  A. Marshall,et al.  RADIATIVELY SELF-COOLED PENNING-TRAPPED ELECTRONS : A NEW WAY TO MAKE GAS-PHASE NEGATIVE IONS FROM NEUTRALS OF LOW ELECTRON AFFINITY , 1997 .

[36]  Alan G. Marshall,et al.  Stored waveform inverse Fourier transform (SWIFT) ion excitation in trapped-ion mass spectometry: Theory and applications , 1996 .

[37]  Richard D. Smith,et al.  High performance fourier transform ion cyclotron resonance mass spectrometric detection for capillary electrophoresis , 1996 .

[38]  P. Schnier,et al.  Unimolecular reaction kinetics in the high-pressure limit without collisions. , 1996, Journal of the American Chemical Society.

[39]  R. Cooks,et al.  Broad-band fourier transform quadrupole ion trap mass spectrometry. , 1996, Analytical chemistry.

[40]  F. McLafferty,et al.  Attomole Protein Characterization by Capillary Electrophoresis-Mass Spectrometry , 1996, Science.

[41]  Richard D. Smith,et al.  Prediction of a space charge induced upper molecular mass limit towards achieving unit mass resolution in Fourier transform ion cyclotron resonance mass spectrometry , 1996 .

[42]  A. Marshall,et al.  The early development of Fourier transform ion cyclotron resonance (FT-ICR) spectroscopy. , 1996, Journal of mass spectrometry : JMS.

[43]  D. Salahub,et al.  Zero-Pressure Thermal-Radiation-Induced Dissociation of Gas-Phase Cluster Ions: Comparison of Theory and Experiment for (H2O)2Cl- and (H2O)3Cl- , 1995 .

[44]  Y. Goto Effects of Noise on the Interpolation Accuracy for Apodized FFT Spectra of Time-Domain Damped Signals , 1995 .

[45]  Mitchell,et al.  Cyclotron motion of two Coulombically interacting ion clouds with implications to Fourier-transform ion cyclotron resonance mass spectrometry. , 1995, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.

[46]  A. Marshall,et al.  Magnitude‐mode multiple‐derivative spectra for resolution enhancement without loss in signal‐to‐noise ratio in Fourier transform spectroscopy , 1995 .

[47]  S. Guan,et al.  Ion traps for Fourier transform ion cyclotron resonance mass spectrometry: principles and design of geometric and electric configurations , 1995 .

[48]  A. J. Peurrung,et al.  Analysis of space-charge effects in cyclotron resonance mass spectrometry as coupled gyrator phenomena , 1995 .

[49]  C. Hendrickson,et al.  Simplified application of quadrupolar excitation in Fourier transform ion cyclotron resonance mass spectrometry , 1995, Journal of the American Society for Mass Spectrometry.

[50]  M. Senko,et al.  Determination of monoisotopic masses and ion populations for large biomolecules from resolved isotopic distributions , 1995, Journal of the American Society for Mass Spectrometry.

[51]  Richard D. Smith,et al.  Trapping, Detection, and Mass Determination of Coliphage T4 DNA Ions by Electrospray Ionization Fourier Transform Ion Cyclotron Resonance Mass Spectrometry , 1995 .

[52]  D. W. Mitchell,et al.  Theory of trapped ion motion in the non-quadrupolar electrostatic potential of a cubic ion cyclotron resonance cell , 1995 .

[53]  K. Lützenkirchen,et al.  The trapping condition and a new instability of the ion motion in the ion cyclotron resonance trap , 1995 .

[54]  S. Guan,et al.  Shrink-wrapping an ion cloud for high-performance Fourier transform ion cyclotron resonance mass spectrometry , 1994 .

[55]  P. Limbach,et al.  Linear excitation and detection in Fourier transform ion cyclotron resonance mass spectrometry , 1994 .

[56]  Fred W. McLafferty,et al.  High-resolution tandem FT mass spectrometry above 10 kDa , 1994 .

[57]  J. Marto,et al.  A two-electrode ion trap for Fourier transform ion cyclotron resonance mass spectrometry , 1994 .

[58]  F W McLafferty,et al.  Infrared multiphoton dissociation of large multiply charged ions for biomolecule sequencing. , 1994, Analytical chemistry.

[59]  R. Dunbar Kinetics of thermal unimolecular dissociation by ambient infrared radiation , 1994 .

[60]  R. Cooks,et al.  Selective Injection and Isolation of Ions in Quadrupole Ion Trap Mass Spectrometry Using Notched Waveforms Created Using the Inverse Fourier Transform , 1994 .

[61]  J. Marto,et al.  Wide-mass-range axialization for high-resolution Fourier-transform ion cyclotron resonance mass spectrometry of externally generated ions. , 1994, Rapid communications in mass spectrometry : RCM.

[62]  D. Pritchard,et al.  Accurate Atomic Mass Measurements from Penning Trap Mass Comparisons of Individual Ions , 1994 .

[63]  G. Kruppa,et al.  Reverse‐phase liquid chromatography/electrospray‐ionization Fourier‐transform mass spectrometry in the analysis of peptides , 1994 .

[64]  D. Russell,et al.  Detection of high-mass biomolecules in Fourier transform ion cyclotron resonance mass spectrometry: theoretical and experimental investigations. , 1994, Analytical chemistry.

[65]  G. Dietrich,et al.  External-ion accumulation in a Penning trap with quadrupole excitation assisted buffer gas cooling , 1994 .

[66]  R. L. Hunter,et al.  FTMS method for high resolution matrix-assisted laser desorption , 1994 .

[67]  C. S. Hsu,et al.  Hydrocarbon Characterization by UltraHigh Resolution Fourier Transform Ion Cyclotron Resonance Mass Spectrometry , 1994 .

[68]  T. Mcmahon,et al.  Spontaneous Unimolecular Dissociation of Small Cluster Ions, (H3O+)Ln and Cl-(H2O)n (n = 2-4), under Fourier Transform Ion Cyclotron Resonance Conditions , 1994 .

[69]  S. Guan,et al.  Generation and detection of coherent magnetron motion in Fourier transform ion cyclotron resonance mass spectrometry , 1994 .

[70]  F. Laukien,et al.  High mass resolution glow discharge mass spectrometry using an external ion source FT-ICR mass spectrometer , 1993 .

[71]  S. Guan,et al.  Masses of stable neon isotopes determined at parts per billion precision by Fourier transform ion cyclotron resonance mass spectrometry , 1993 .

[72]  K. Wanczek,et al.  Exact two‐dimensional quadrupole field and superposition of a homogeneous field , 1993 .

[73]  Yongqing Huang,et al.  Multiple excitation collisional activation in Fourier‐transform mass spectrometry , 1993 .

[74]  S. Guan,et al.  Two-dimensional Fourier transform ion cyclotron resonance mass spectrometry/mass spectrometry with stored-waveform ion radius modulation , 1993 .

[75]  R. Cooks,et al.  Broad-band excitation in the quadrupole ion trap mass spectrometer using shaped pulses created with the inverse Fourier transform , 1993 .

[76]  Richard D. Smith,et al.  On-line capillary electrophoresis with Fourier transform ion cyclotron resonance mass spectrometry , 1993 .

[77]  I. Amster,et al.  Remeasurement of ions using quadrupolar excitation Fourier transform ion cyclotron resonance spectrometry. , 1993, Analytical chemistry.

[78]  Richard D. Smith,et al.  High-resolution accurate mass measurements of biomolecules using a new electrospray ionization ion cyclotron resonance mass spectrometer , 1993, Journal of the American Society for Mass Spectrometry.

[79]  D. W. Mitchell,et al.  Excitation electric field inhomogeneities in a cubic ion cyclotron resonance cell: ion motion for away from the cyclotron frequency , 1993 .

[80]  P. Limbach,et al.  An electrostatic ion guide for efficient transmission of low energy externally formed ions into a Fourier transform ion cyclotron resonance mass spectrometer , 1993 .

[81]  Alan G. Marshall,et al.  Excitation modes for fourier transform-ion cyclotron resonance mass spectrometry , 1993, Journal of the American Society for Mass Spectrometry.

[82]  A. Marshall,et al.  Stored waveform inverse Fourier transform axial excitation/ejection for quadrupole ion trap mass spectrometry. , 1993, Analytical chemistry.

[83]  M. Cheeseman,et al.  Infrared Multiple Photon Dissociation Spectra of Gaseous Ions , 1993 .

[84]  K. Wanczek,et al.  A new ion cyclotron resonance cell for simultaneous trapping of positive and negative ions , 1993 .

[85]  S. Guan,et al.  Axial and radial ion cloud compression: coupling of magnetron and cyclotron motion to axial motion in a segmented cubic Fourier transform ion cyclotron resonance ion trap , 1993 .

[86]  F. McLafferty,et al.  Improved fourier-transform ion-cyclotron-resonance mass spectrometry of large biomolecules , 1993, Journal of the American Society for Mass Spectrometry.

[87]  P. Limbach,et al.  Experimental determination of the number of trapped ions, detection limit, and dynamic range in Fourier transform ion cyclotron resonance mass spectrometry , 1993 .

[88]  S. Beu,et al.  Initiation of coherent magnetron motion following ion injection into a Fourier transform ion cyclotron resonance trapped ion cell , 1993 .

[89]  J. Gormally Lasers in mass spectrometry , 1992 .

[90]  S. Guan,et al.  Quadrupolar excitation and collisional cooling for axialization and high pressure trapping of ions in Fourier transform ion cyclotron resonance mass spectrometry , 1992 .

[91]  S. Guan,et al.  Circularly polarized quadrature excitation for Fourier-transform ion cyclotron resonance mass spectrometry , 1992 .

[92]  Alan G. Marshall,et al.  Fourier transform ion cyclotron resonance mass spectrometry: technique developments , 1992 .

[93]  J. I. Brauman,et al.  Low energy collision induced dissociation: phase-shifting excitation control of ion kinetic energy in ion cyclotron resonance spectrometry , 1992 .

[94]  D. Laude,et al.  Trapping and detection of ions generated in a high magnetic field electrospray ionization fourier transform ion cyclotron resonance mass spectrometer , 1992, Journal of the American Society for Mass Spectrometry.

[95]  W. Whitten,et al.  Theory of high-resolution mass spectrometry achieved via resonance ejection in the quadrupole ion trap , 1992 .

[96]  M. Gross,et al.  High pressure trapping in Fourier transform mass spectrometry: A radiofrequency-only-mode event , 1992, Journal of the American Society for Mass Spectrometry.

[97]  C. Wilkins,et al.  Matrix-assisted laser desorption/ionization of high-mass molecules by Fourier-transform mass spectrometry. , 1992, Rapid communications in mass spectrometry : RCM.

[98]  A. Marshall,et al.  Dyanmic ion trapping for Fourier‐transform ion cyclotron resonance mass spectrometry: Simultaneous positive‐ and negative‐ion detection , 1992 .

[99]  S. Beu,et al.  Open trapped ion cell geometries for Fourier transform ion cyclotron resonance mass spectrometry , 1992 .

[100]  R. Hettich,et al.  Matrix-assisted laser desorption fourier transform mass spectrometry for the structural examination of modified nucleic acid constituents , 1991 .

[101]  R. Dunbar,et al.  Time-resolved photodissociation of toluene ion , 1991 .

[102]  P. Limbach,et al.  Fast neutral beam ion source coupled to a Fourier transform ion cyclotron resonance mass spectrometer , 1991 .

[103]  S. Beu,et al.  Radial ion transport due to resistive-wall destabilization in Fourier transform mass spectrometry , 1991 .

[104]  M. B. Comisarow,et al.  Simple physical models for coulomb-induced frequency shifts and coulomb-induced inhomogenous broadening for like and unlike ions in fourier transform ion cyclotron resonance mass spectrometry , 1991 .

[105]  A. Marshall,et al.  General theory of excitation in ion cyclotron resonance mass spectrometry , 1991 .

[106]  G. Bollen,et al.  A new cooling technique for heavy ions in a Penning trap , 1991 .

[107]  H. Schwarz,et al.  Organometallic chemistry in the gas phase , 1991 .

[108]  R. Dunbar Kinetics of low‐intensity infrared laser photodissociation. The thermal model and application of the Tolman theorem , 1991 .

[109]  A. Marshall,et al.  Ion-locked cyclotron resonance: a means for instantaneously changing ion cyclotron orbital radius , 1991 .

[110]  A. Marshall,et al.  Can Fourier transform mass spectral resolution be improved by detection at harmonic multiples of the fundamental ion cyclotron orbital frequency , 1991 .

[111]  T. R. Trautman,et al.  Sustained off-resonance irradiation for collision-activated dissociation involving Fourier transform mass spectrometry. Collision-activated dissociation technique that emulates infrared multiphoton dissociation , 1991 .

[112]  G. Kruppa,et al.  Continuous‐flow fast‐atom bombardment on an external‐ion‐source Fourier transform ion cyclotron resonance mass spectrometer , 1991 .

[113]  P. Caravatti,et al.  The ‘infinity cell’: A new trapped‐ion cell with radiofrequency covered trapping electrodes for fourier transform ion cyclotron resonance mass spectrometry , 1991 .

[114]  A. Marshall,et al.  Comprehensive theory of the Fourier transform ion cyclotron resonance signal for all ion trap geometries , 1991 .

[115]  A G Marshall,et al.  Pure absorption-mode spectra from Bayesian maximum entropy analysis of ion cyclotron resonance time-domain signals. , 1991, Analytical chemistry.

[116]  A. Marshall,et al.  FOURIER TRANSFORM ION CYCLOTRON RESONANCE MASS SPECTROMETRY: THE TEENAGE YEARS , 1991 .

[117]  R. Smalley,et al.  Direct injection supersonic cluster beam source for FT‐ICR studies of clusters , 1990 .

[118]  C. Hop,et al.  Determination of bond dissociation energies via energy-resolved collision induced dissociation in a fourier transform ion cyclotron resonance spectrometer , 1990 .

[119]  G. Bollen,et al.  The accuracy of heavy‐ion mass measurements using time of flight‐ion cyclotron resonance in a Penning trap , 1990 .

[120]  F. Lafferty,et al.  Metal-vapor vacuum arc as a primary ion source for secondary ion mass spectrometry , 1990 .

[121]  A. Marshall,et al.  Theory of ion cyclotron resonance mass spectrometry: resonant excitation and radial ejection in orthorhombic and cylindrical ion traps , 1990 .

[122]  A. Marshall,et al.  Laboratory-frame and rotating-frame ion trajectories in ion cyclotron resonance mass spectrometry , 1990 .

[123]  M. Gross,et al.  A scaling technique for studying the dynamics of high mass ions in Fourier transform mass spectrometry : a preliminary report , 1990 .

[124]  Haas,et al.  Thousandfold improvement in the measured antiproton mass. , 1990, Physical review letters.

[125]  F W McLafferty,et al.  Surface-induced dissociation of peptide ions in Fourier-transform mass spectrometry , 1990, Journal of the American Society for Mass Spectrometry.

[126]  N. Nibbering,et al.  Gas-phase ion/molecule reactions as studied by Fourier transform ion cyclotron resonance , 1990 .

[127]  F. McLafferty,et al.  Multiple remeasurement of ions in Fourier-transform mass spectrometry , 1990 .

[128]  T. Farrar,et al.  Accurate ion abundance measurements in ion cyclotron resonance mass spectrometry by linear prediction , 1990 .

[129]  A. Marshall,et al.  Effect of Sampling Rate on Fourier Transform Spectra: Oversampling is Overrated , 1990 .

[130]  C. Wilkins,et al.  Surface-induced dissociation by Fourier transform mass spectrometry. , 1990, Analytical chemistry.

[131]  R. T. McIver Trajectory calculations for axial injection of ions into a magnetic field: overcoming the magnetic mirror effect with an r.f. quadrupole lens , 1990 .

[132]  H. Kluge,et al.  Quadrupole-detection FT-ICR mass spectrometry , 1990 .

[133]  T. Mcmahon,et al.  A high pressure external ion source for Fourier transform ion cyclotron resonance spectrometry , 1990 .

[134]  C. Wilkins,et al.  An external secondary ion source for fourier transform mass spectrometry , 1990 .

[135]  A. Marshall,et al.  Time-Domain (Interferogram) and Frequency-Domain (Absorption-Mode and Magnitude-Mode) Noise and Precision in Fourier Transform Spectrometry , 1990 .

[136]  M. Gorshkov,et al.  Ion cyclotron resonance signal‐detection at multiples of the cyclotron frequency , 1990 .

[137]  R. L. Hunter,et al.  Detection of mass 31,830 ions with an external ion source Fourier transform mass spectrometer. , 1990, Analytical chemistry.

[138]  R. Cooks,et al.  Ion isolation and sequential stages of mass spectrometry in a quadrupole ion trap mass spectrometer , 1990 .

[139]  J. Hogan,et al.  Suspended trapping procedure for alleviation of space charge effects in gas chromatography/Fourier transform mass spectrometry , 1990 .

[140]  A. Marshall,et al.  Elimination of z-ejection in Fourier transform ion cyclotron resonance mass spectrometry by radio frequency electric field shimming. , 1990, Analytical chemistry.

[141]  D. Russell,et al.  Field-corrected ion cell for ion cyclotron resonance , 1990 .

[142]  W. Guchte,et al.  Excitation of the z motion of ions in cubic and elongated ion cyclotron resonance cells , 1990 .

[143]  A G Marshall,et al.  Bayesian versus Fourier spectral analysis of ion cyclotron resonance time-domain signals. , 1990, Analytical chemistry.

[144]  F. Verdun,et al.  Fourier Transforms in NMR, Optical, and Mass Spectrometry: A User's Handbook , 1990 .

[145]  F. McLafferty,et al.  Fourier-transform mass spectrometry of large molecules by electrospray ionization. , 1989, Proceedings of the National Academy of Sciences of the United States of America.

[146]  D. W. Mitchell,et al.  z-axis oscillation sidebands in FT/ICR mass spectra , 1989 .

[147]  A. Marshall,et al.  A "screened" electrostatic ion trap for enhanced mass resolution, mass accuracy, reproducibility, and upper mass limit in Fourier transform ion cyclotron resonance mass spectrometry. , 1989, Analytical chemistry.

[148]  L. Schweikhard,et al.  Fourier transform mass spectrometry without ion cyclotron resonance: direct observation of the trapping frequency of trapped ions , 1989 .

[149]  L. Haarsma,et al.  Open-endcap Penning traps for high precision experiments , 1989 .

[150]  A. Marshall,et al.  Hartley transform ion cyclotron resonance mass spectrometry. , 1989, Analytical chemistry.

[151]  R. Dunbar,et al.  Ion cyclotron resonance time-of-flight spectroscopy. Kinetic energy of p-iodotoluene photodissociation fragment ions , 1988 .

[152]  F. Verdun,et al.  Effects of Noise, Time-Domain Damping, Zero-Filling and the FFT Algorithm on the “Exact” Interpolation of Fast Fourier Transform Spectra , 1988 .

[153]  A. Marshall Dispersion vs. absorption (DISPA): A magic circle for spectroscopic line shape analysis , 1988 .

[154]  A. Marshall,et al.  High-resolution multiple-ion simultaneous monitoring by means of multiple-foldover Fourier transform ion cyclotron resonance mass spectrometry. , 1988, Analytical chemistry.

[155]  W. Guchte,et al.  Excitation of the z-motion of ions in a cubic icr cell , 1988 .

[156]  A. Rockwood,et al.  Resolution improvement by using harmonic detection in an ion cyclotron resonance mass spectrometer , 1987 .

[157]  M. Gross,et al.  Parametric mode operation of a hyperbolic Penning trap for Fourier transform mass spectrometry. , 1987, Analytical chemistry.

[158]  A. Marshall,et al.  Stored waveform simultaneous mass-selective ejection/excitation for Fourier transform ion cyclotron resonance mass spectrometry , 1987 .

[159]  C. Wilkins,et al.  Supercritical fluid chromatography interface for a differentially pumped dual-cell Fourier transform mass spectrometer , 1987 .

[160]  Geoffrey Bodenhausen,et al.  Two-dimensional fourier transform ion cyclotron resonance mass spectrometry , 1987 .

[161]  A. Marshall,et al.  Effect of time-domain dynamic range on stored waveform excitation for Fourier transform ion cyclotron resonance mass spectrometry. , 1987, Rapid communications in mass spectrometry : RCM.

[162]  A. Marshall,et al.  Dispersion versus absorption (DISPA) method for automatic phasing of Fourier transform ion cyclotron resonance mass spectra. , 1987, Rapid communications in mass spectrometry : RCM.

[163]  Robert B. Cody,et al.  Electron impact excitation of ions in Fourier transform mass spectrometry , 1987 .

[164]  R. Cooks,et al.  Internal energy distributions of isolated ions after activation by various methods , 1987 .

[165]  M. B. Comisarow,et al.  Frequency Interpolation of Discrete, Apodized, Magnitude Lineshapes , 1987 .

[166]  A. Marshall,et al.  Effect of signal-to-noise radio and number of data points upon precision in measurement of peak amplitude, position and width in Fourier transform spectrometry , 1986 .

[167]  A. Rahbee High-resolution mass spectrometry using the maximum entropy method , 1986 .

[168]  R. Smalley,et al.  Metal cluster ion cyclotron resonance. Combining supersonic metal cluster beam technology with FT-ICR , 1986 .

[169]  K. Wanczek,et al.  Time-of-flight ICR spectrometry , 1986 .

[170]  Van Dyck,et al.  Electron magnetic moment from geonium spectra: Early experiments and background concepts. , 1986, Physical review. D, Particles and fields.

[171]  A. Marshall,et al.  Tailored excitation for Fourier transform ion cyclotron mass spectrometry , 1985 .

[172]  B. Freiser Investigation of reactions of metal ions and their clusters in the gas phase by laser-ionization fourier-transform mass spectrometry. , 1985, Talanta.

[173]  M. Gross,et al.  Space charge effects in Fourier transform mass spectrometry. Mass calibration. , 1984, Analytical chemistry.

[174]  R. L. Hunter,et al.  Fragmentation of oligopeptide ions using ultraviolet laser radiation and Fourier transform mass spectrometry , 1984 .

[175]  M. Gross,et al.  Fourier transform mass spectrometry. , 1984, Science.

[176]  C. Wilkins,et al.  Fourier transform mass spectrometry using random-noise excitation , 1984 .

[177]  A. Marshall,et al.  Fourier transform ion cyclotron mass spectrometry using pseudo-ramdom-noise excitation , 1984 .

[178]  A. Marshall,et al.  Ion cyclotron resonance excitatio/de-excitation: A basis for Stochastic fourier transform ion cyclotron mass spectrometry , 1984 .

[179]  D. Russell,et al.  Cesium ion desorption ionization with Fourier transform mass spectrometry , 1984 .

[180]  R. Dunbar The effect of ion position on ICR signal strength , 1984 .

[181]  M. Gross,et al.  Pulsed valve interface for gas chromatography/Fourier transform mass spectrometry , 1983 .

[182]  R. L. Hunter,et al.  Experimental determination of the effects of space charge on ion cyclotron resonance frequencies , 1983 .

[183]  D. Russell,et al.  Structural determination of [C7H7O]+ ions in the gas phase by ion cyclotron resonance spectrometry , 1983 .

[184]  B. Freiser,et al.  Multiphoton ionization in Fourier transform mass spectrometry , 1983 .

[185]  R. L. Hunter,et al.  Multiphoton ionization detected by fourier-transform mass spectrometry , 1982 .

[186]  Robert L. White,et al.  Capillary gas chromatography/Fourier transform mass spectrometry , 1982 .

[187]  A. Marshall Fourier, Hadamard, and Hilbert Transforms in Chemistry , 1982 .

[188]  K. Wanczek,et al.  Sidebands in the ICR spectrum and their application for exact mass determination , 1981 .

[189]  C. Wilkins,et al.  Chemical ionization in Fourier transform mass spectrometry , 1981 .

[190]  Melvin B. Comisarow,et al.  Cubic trapped-ion cell for ion cyclotron resonance , 1981 .

[191]  A. Marshall,et al.  Theory of Fourier transform ion cyclotron resonance mass spectroscopy: Response to frequency‐sweep excitation , 1980 .

[192]  Robert L. White,et al.  Resolution and signal-to-noise in Fourier transform mass spectrometry , 1980 .

[193]  A. Marshall,et al.  Relaxation and spectral line shape in Fourier transform ion resonance spectroscopy , 1979 .

[194]  M. B. Comisarow,et al.  Error estimates for finite zero-filling in Fourier transform spectrometry , 1979 .

[195]  A. Marshall Theoretical signal-to-noise ratio and mass resolution in Fourier transform ion cyclotron resonance mass spectrometry , 1979 .

[196]  A. Marshall Convolution Fourier transform ion cyclotron resonance spectroscopy , 1979 .

[197]  M. B. Comisarow Signal modeling for ion cyclotron resonance , 1978 .

[198]  V. Grassi,et al.  Fourier transform ion cyclotron double resonance , 1978 .

[199]  R. Woodin,et al.  Multiphoton dissociation of molecules with low power continuous wave infrared laser radiation , 1978 .

[200]  A. Marshall,et al.  Dispersion versus absorption: spectral line shape analysis for radiofrequency and microwave spectrometry , 1978 .

[201]  R. L. Hunter,et al.  Conceptual and experimental basis for rapid scan ion cyclotron resonance spectroscopy , 1977 .

[202]  A. Marshall,et al.  Frequency-sweep fourier transform ion cyclotron resonance spectroscopy , 1974 .

[203]  A. Marshall,et al.  Selective-phase Ion Cyclotron Resonance Spectroscopy , 1974 .

[204]  A. Marshall,et al.  Fourier Transform Ion Cyclotron Resonance Spectroscopy , 1974 .

[205]  Richard R. Ernst,et al.  Fourier Spectroscopy and the Causality Principle , 1973 .

[206]  P. Genequand Le résotron, spectromètre de masse cyclotronique à balayage rapide , 1971 .

[207]  M. B. Comisarow Comprehensive theory for ion cyclotron resonance power absorption - Application to line shapes for reactive and nonreactive ions , 1971 .

[208]  R. T. McIver A Trapped Ion Analyzer Cell for Ion Cyclotron Resonance Spectroscopy , 1970 .

[209]  John D. Baldeschwieler,et al.  Ion Cyclotron Resonance Spectroscopy , 1968, Science.

[210]  J. Beauchamp Theory of Collision-Broadened Ion Cyclotron Resonance Spectra , 1967 .

[211]  J. Baldeschwieler,et al.  Ion‐Cyclotron Double Resonance , 1966 .

[212]  J. Tukey,et al.  An algorithm for the machine calculation of complex Fourier series , 1965 .

[213]  W. T. Scott Who Was Earnshaw , 1959 .

[214]  F. Bloch,et al.  Line-Narrowing by Macroscopic Motion , 1954 .

[215]  J. Hipple,et al.  THE MEASUREMENT OF e/M BY CYCLOTRON RESONANCE , 1951 .

[216]  H. Sommer,et al.  Detection of Magnetic Resonance by Ion Resonance Absorption , 1950 .

[217]  W. Shockley Currents to Conductors Induced by a Moving Point Charge , 1938 .

[218]  E. Lawrence,et al.  The Production of High Speed Light Ions Without the Use of High Voltages , 1931 .

[219]  G. Anderson,et al.  Initial implementation of an electrodynamic ion funnel with fourier transform ion cyclotron resonance mass spectrometry , 2000, Journal of the American Society for Mass Spectrometry.

[220]  Richard D. Smith,et al.  Proteome analysis using selective incorporation of isotopically labeled amino acids , 2000, Journal of the American Society for Mass Spectrometry.

[221]  M. Emmett,et al.  Electrospray ionization Fourier transform ion cyclotron resonance mass spectrometry. , 1999, Annual review of physical chemistry.

[222]  A. Marshall,et al.  Fourier transform ion cyclotron resonance mass spectrometry: a primer. , 1998, Mass spectrometry reviews.

[223]  Robin K. Harris,et al.  Encyclopedia of nuclear magnetic resonance , 1996 .

[224]  A. Marshall,et al.  Determination of ion magnetron radial distribution in Fourier transform ion cyclotron resonance mass spectrometry. , 1996, Rapid communications in mass spectrometry : RCM.

[225]  B. Freiser,et al.  A pulsed-leak valve for use with ion trapping mass spectrometers , 1996, Journal of the American Society for Mass Spectrometry.

[226]  A. Marshall Ion Cyclotron Resonance and Nuclear Magnetic Resonance Spectroscopies: Magnetic Partners for Elucidation of Molecular Structure and Reactivity , 1996 .

[227]  A. Marshall,et al.  Resolution and chemical formula identification of aromatic hydrocarbons and aromatic compounds containing sulfur, nitrogen, or oxygen in petroleum distillates and refinery streams. , 1996, Analytical chemistry.

[228]  S. Guan,et al.  Stacked-ring electrostatic ion guide , 1996, Journal of the American Society for Mass Spectrometry.

[229]  M. Senko,et al.  Electrospray ionization Fourier transform ion cyclotron resonance at 9.4 T. , 1996, Rapid communications in mass spectrometry : RCM.

[230]  Alan G. Marshall,et al.  ADVANTAGES OF HIGH MAGNETIC FIELD FOR FOURIER TRANSFORM ION CYCLOTRON RESONANCE MASS SPECTROMETRY , 1996 .

[231]  S. Guan,et al.  Filar ion cyclotron resonance ion trap: Spatially multiplexed dipolar and quadrupolar excitation for simultaneous ion axialization and detection , 1995 .

[232]  Yasuhide Naito,et al.  Peak Confluence Phenomenon in Fourier Transform Ion Cyclotron Resonance Mass Spectrometry , 1994 .

[233]  M. B. Comisarow,et al.  Modelling Coulomb effects in Fourier-transform ion cyclotron resonance mass spectrometry by charged disks and charged cylinders , 1992 .

[234]  S. Beu,et al.  Elimination of Axial Ejection during Excitation with a Capacitively Coupled Open Trapped-Ion Cell for Fourier Transform Ion Cyclotron Resonance Mass Spectrometry , 1992 .

[235]  Bruce Asamoto FT-ICR/MS: Analytical applications of Fourier transform ion cyclotron resonance mass spectrometry , 1991 .

[236]  G. Glish,et al.  Selective ion isolation/rejection over a broad mass range in the quadrupole ion trap , 1991, Journal of the American Society for Mass Spectrometry.

[237]  A. Marshall,et al.  Simple and accurate determination of ion translational energy in ion cyclotron resonance mass spectroscopy , 1990 .

[238]  R. March,et al.  Quadrupole storage mass spectrometry , 1989 .

[239]  J. M. Farrar,et al.  Techniques for the study of ion-molecule reactions , 1988 .

[240]  Lowell S. Brown,et al.  Geonium theory: Physics of a single electron or ion in a Penning trap , 1986 .

[241]  A. Marshall,et al.  Clipped representations of fourier-transform ion-cyclotron resonance mass spectra , 1985 .

[242]  M. Gross,et al.  Laser desorption/fourier-transform mass spectrometry for the study of nucleosides, oligosaccharides, and glycosides , 1985 .

[243]  R. Cody,et al.  Collision-induced dissociation with Fourier transform mass spectrometry , 1982 .

[244]  M. B. Comisarow Signals, Noise, Sensitivity and Resolution in Ion Cyclotron Resonance Spectroscopy , 1982 .

[245]  B. Freiser Trapping of positive ions in the electron beam of an ion cyclotron resonance spectrometer , 1978 .

[246]  A. Marshall,et al.  Theory of Fourier transform ion cyclotron resonance mass spectroscopy. I. Fundamental equations and low‐pressure line shape , 1976 .

[247]  M. M. Bursey,et al.  Ion cyclotron resonance spectrometry , 1976 .

[248]  R. R. Ernst,et al.  Application of Fourier Transform Spectroscopy to Magnetic Resonance , 1966 .