Abstract: Microorganisms are identified as present in a complex sample or mixed culture by acquiring a mass spectrum of the sample and comparing it to combination spectra, each of which is formed by combining at least two reference mass spectra of known microorganisms. Microorganisms corresponding to the reference spectra used to form the combination spectrum are identified as present in the sample if that combination spectrum exhibits a better match with the sample mass spectrum than any one of reference mass spectra used to form that combination spectrum. It is also possible to identify microorganisms by forming a difference spectrum by subtracting a reference mass spectrum from the sample mass spectrum and comparing the difference spectrum to the reference mass spectra.

Abstract: The invention relates to the identification of microbes in a sample by calculating the similarities between a mass spectrum of the sample and all reference spectra in a spectral library; it particularly concerns the detection of microbe mixtures. Microbe mixtures are probably present if several microbe species which are not closely related to each other are among the score list containing the most similar reference spectra. Methods are proposed which (1) operate with a list of the relationships, (2) determine the similarity between the reference spectra of the different microbe species of the score list, or (3) always carry out a mixture analysis in accordance with document DE 10 2009 007 266 A1 from the score list, with the generation of combination spectra, and only afterwards check the similarity of the combined spectra and thus the relationship between the microbe strains concerned.

Abstract: The invention relates to identifying substances in a sample by similarity comparisons between series of ion mobility spectra of the sample and series of ion mobility spectra of reference samples. The collection of series of spectra of reference samples, termed reference library, are divided into classes, with the class assignment of a series of spectra being calculated from the measured values themselves, and limiting the similarity comparisons to series of spectra with the same class assignment. First and second moments of the spectra have proven to be particularly favorable characteristics for the class assignment.

Abstract: The invention relates to identifying substances in a sample by similarity comparisons between series of ion mobility spectra of the sample and series of ion mobility spectra of reference samples. The collection of series of spectra of reference samples, termed reference library, are divided into classes, with the class assignment of a series of spectra being calculated from the measured values themselves, and limiting the similarity comparisons to series of spectra with the same class assignment. First and second moments of the spectra have proven to be particularly favorable characteristics for the class assignment.

Abstract: A method for identifying an analyte includes introducing a transient cloud with an increasing and a decreasing analyte concentration into an ion mobility spectrometer, determining a series of analyte spectra, and identifying the analyte using mobility values and process kinetics from a formation of different types of analyte ions which is visible in a signal profile of the series of analyte spectra.

Abstract: Microorganisms are identified as present in a complex sample or mixed culture by acquiring a mass spectrum of the sample and comparing it to combination spectra, each of which is formed by combining at least two reference mass spectra of known microorganisms. Microorganisms corresponding to the reference spectra used to form the combination spectrum are identified as present in the sample if that combination spectrum exhibits a better match with the sample mass spectrum than any one of reference mass spectra used to form that combination spectrum. It is also possible to identify microorganisms by forming a difference spectrum by subtracting a reference mass spectrum from the sample mass spectrum and comparing the difference spectrum to the reference mass spectra.

Abstract: The invention generates mass scale comparability between mass spectra which are acquired in time-of-flight mass spectrometers, particularly with ionization by matrix-assisted laser desorption. Always slightly distorted mass scales of different mass spectra from the same type of sample can be aligned. The flight times of identical ions always differ slightly from one mass spectrum to the next due to non-reproducible processes in the ionization method. Thus the apparent mass values of ion signals of identical substances in different mass spectra do not match even if the flight times are converted into mass values with the identical calibration equation. After alignment of the mass scales, mass spectra can be reliably compared with respect to deviations in intensities of bio-makers, or be added together without deterioration in the mass resolution, and improved reference spectrum libraries can be created. Furthermore, the invention allows more reliable library searches to be carried out.

Abstract: The invention generates mass scale comparability between mass spectra which are acquired in time-of-flight mass spectrometers, particularly with ionization by matrix-assisted laser desorption. Always slightly distorted mass scales of different mass spectra from the same type of sample can be aligned. The flight times of identical ions always differ slightly from one mass spectrum to the next due to non-reproducible processes in the ionization method. Thus the apparent mass values of ion signals of identical substances in different mass spectra do not match even if the flight times are converted into mass values with the identical calibration equation. After alignment of the mass scales, mass spectra can be reliably compared with respect to deviations in intensities of bio-makers, or be added together without deterioration in the mass resolution, and improved reference spectrum libraries can be created. Furthermore, the invention allows more reliable library searches to be carried out.

Abstract: The invention relates to a switchable ion mobility spectrometer (IMS) with ring electrodes divided into half-rings, which surround the drift chamber of the IMS. In a first operating condition, the two half-rings of each ring electrode are at the same potential and the various ring electrodes are at different potential varying monotonously along the drift path. In this way, ions are transported in the conventional manner along the drift path. In a second operating mode, the half-rings of the ring electrodes are at different potentials, by which the ions are each deflected toward one of the half-rings. The currents thus resulting are captured by the corresponding half-rings, amplified and an ion mobility spectrum is produced. A favorable design for the IMS can be used in many different modes of operation.

Abstract: An ion mobility spectrometer (IMS) with electric drift fields directed at a central detector electrode. The IMS is rotationally symmetrical and has a disk shape.

Abstract: The invention relates to a radioactive ion source for generation of low-energy .alpha. or .beta. radiation. Both the activity of the source as well as the range of radiation can be adjusted to the respective application. Due to a carrier layer of semiconductive material, release of radioactive substances is prevented.