Abstract: Disclosed are a multimethod ionization device (MID) to utilize at least chemical ionization and a system further utilizing such a device provided with a reaction chamber for ion formation of reagent species for adduct formation from at least one analyte to be characterized as based on mass to charge ratio for the analyte identification.

Abstract: Disclosed are a multimethod ionization device (MID) to utilize at least chemical ionization and a system further utilizing such a device provided with a reaction chamber for ion formation of reagent species for adduct formation from at least one analyte to be characterized as based on mass to charge ratio for the analyte identification.

Abstract: Disclosed is a system for screening of traces of illicit substances that may be harmful, such as explosives, radioactive substances, toxics or drugs for example, from very tiny trace concentrations to be detected by way of mass spectrometry being applied to the detached and pre-concentrated particulate matter by the system. Also disclosed is a method in accordance of the system, an arrangement or device as a system element of the system, and a software code on computer readable medium, to control the system and/or acquire data from the system.

Abstract: A device for ionizing sample particles of a sample gas flow comprises a first flow tube for providing the sample gas flow, and an introducing means for providing H2SO4 molecules to an interaction region. In addition the device comprises a generator for producing reagent primary ions from particles of candidate reagent gas flow essentially in a primary ion production region. The device is configured to introduce said reagent primary ions with H2SO4 molecules in said interaction region in order to arrange interaction between the reagent primary ions and the H2SO4 molecules, thereby producing HSO4? ions and again to produce HSO4? ion clusters comprising HSO4? ions and at least two H2SO4 molecules via interactions of HSO4? with other H2SO4 molecules in said interaction region.

Abstract: A device for ionizing sample particles of a sample gas flow comprises a first flow tube for providing the sample gas flow, and an introducing means for providing H2SO4 molecules to an interaction region. In addition the device comprises a generator for producing reagent primary ions from particles of candidate reagent gas flow essentially in a primary ion production region. The device is configured to introduce said reagent primary ions with H2SO4 molecules in said interaction region in order to arrange interaction between the reagent primary ions and the H2SO4 molecules, thereby producing HSO4? ions and again to produce HSO4? ion clusters comprising HSO4? ions and at least two H2SO4 molecules via interactions of HSO4? with other H2SO4 molecules in said interaction region.

Abstract: Sizes or size distribution of aerosol particles of an aerosol gas stream is detected. A particle-free carrier flow is saturated in a saturator by a first condensing medium, after which, the carrier flow is mixed in a mixing section turbulently with aerosol particle flow. Advantageously, a plurality of separate mixtures with different saturation ratios are provided and introduced to the first condensing environment in order to condensate the condensing medium onto the aerosol particles. Depending on the saturation ratio, the particles with different lowest original size are activated and grown in a growing section and/or in the condensing environment. After activation and growing, the particles are detected by a detecting means.

Abstract: A device for ionizing particles (molecules or clusters) of a sample gas flow comprises a first flow tube for providing the sample gas flow, and a generator for producing reagent primary ions from particles of candidate reagent gas flow at a primary ion production region. The device also has an interaction region for introducing the reagent ions into the sample gas flow in order to arrange interaction between the reagent primary ions and the particles of the sample gas flow, thereby producing sample gas ions to be delivered to a detector. The generator for producing reagent primary ions is a non-radioactive soft X-ray radiation source.

Abstract: Sizes or size distribution of aerosol particles of an aerosol gas stream is detected. A particle-free carrier flow is saturated in a saturator by a first condensing medium, after which, the carrier flow is mixed in a mixing section turbulently with aerosol particle flow. Advantageously, a plurality of separate mixtures with different saturation ratios are provided and introduced to the first condensing environment in order to condensate the condensing medium onto the aerosol particles. Depending on the saturation ratio, the particles with different lowest original size are activated and grown in a growing section and/or in the condensing environment. After activation and growing, the particles are detected by a detecting means.