Abstract: The invention relates to the voltage supply of mass spectrometers, particularly electrostatic Kingdon ion analyzers, requiring extremely noise-free operating voltages. The invention proposes the use of passive charge storage devices, which operate without any feedback control and display no measureable noise or ripple if they are well shielded, instead of the usual actively operating high-voltage generators. Chemical charge storage devices or capacitors with good insulation can be used for this purpose. These may display slight voltage decreases due to continuous discharge, depending on their quality, but these decreases can be mathematically compensated.

Abstract: Identification of infectious pathogens, particularly viruses, bacteria and other microorganisms is effected with a method whereby pathogens of acute infections can be identified, without first culturing them in external nutrient media, by mass spectrometric measurement of their protein profiles obtained from pathogens directly precipitated from body fluid into pellets by centrifuging. With this method, pathogens which cause acute infections can be identified in less than one hour.

Abstract: The invention relates to time-of-flight mass spectrometers in which individual time-of-flight spectra are measured by detection systems with limited dynamic measurement range and are summed to sum spectra. The invention proposes a method to increase the dynamic range of measurement of the spectrum. To achieve this, those ions signals whose measured values display saturation of the analog-to-digital converter (ADC) are replaced by correction values, particularly if several successive measured values are in saturation. The correction values are obtained from the width of the signals, preferably simply from the number of measured values in saturation.

Abstract: The geometry of a Kingdon ion trap, in which harmonic ion oscillation in a potential well in a longitudinal direction is completely decoupled from ion oscillation in a direction transverse to the longitudinal direction, is arranged so that the oscillating ions introduced through the entrance tube cannot return to the entrance tube until they have performed several longitudinal oscillations during which time heavier ions can be introduced into the trap. In one embodiment, ions enter the trap via an entrance tube extending through, but electrically insulated from, one of the Kingdon trap housing electrodes and located outside the minimum of the potential well in the longitudinal direction.

Abstract: The invention relates to measuring cells and measuring methods in oscillation mass spectrometers in which clouds of the same species of ion oscillate harmonically in a potential well in a longitudinal direction, decoupled from their motion transverse to this direction. A frequency analysis of the longitudinal oscillations of these ion clouds, which is carried out by a Fourier analysis of the induced image currents between two detection electrodes, leads to frequency spectra of the ions and hence to mass spectra. The position of the ion trajectories relative to the detection electrodes and the design of the measuring cells in the oscillation mass spectrometers is used to generate large proportions of harmonics in the image currents, and evaluate the frequency signals of the harmonics.

Abstract: The invention relates to the use of substances for the production of anions suitable for charge transfer reactions in mass spectrometers, particularly for the fragmentation of multiply positively charged biopolymer ions by electron transfer or for charge reduction by proton transfer. Diketones, particularly ?-diketones, are proposed as a newly found class of substances which can be used both for the production of radical anions for electron transfer dissociations (ETD) with a high yield of fragment ions and also for the production of non-radical anions for the charge reduction of multiply charged analyte ions by proton transfer reactions (PTR). These substances have favorable properties in terms of their handling and the associated analytical methods: they are largely nontoxic, cover a favorable range of molecular masses, and their volatility means that they can be stored in unheated containers outside of the vacuum system, which facilitates the refilling of the containers.

Abstract: The invention relates to a mass spectrometer comprising a laser system for mass-spectrometric analyses with ionization of analyte molecules in a sample by matrix-assisted laser desorption. A mass spectrometer with a pulsed UV laser system produces a spatially distributed spot pattern with peaks of uniform energy density on the sample, increasing thereby the degree of ionization for analyte ions as compared to conventional spot patterns. The spot pattern with peaks of uniform energy density can be produced by homogeneous illumination of a pattern generator, for example a lens array. The homogeneous illumination can be generated by a low-cost beam-shaping element, which does not act on the UV beam but on the original infrared beam, in conjunction with changes to the beam cross-section and beam profile brought about by the nonlinear conversion crystals.