Systems and methods disclosed provide a laser-assisted micro-mass spectrometer, which can include a pulsed inlet, a multi-wavelength laser system, and a first mass spectrometer module including a plurality of first ionization sources. In an embodiment, the pulsed inlet can be configured to receive a neutral sample of analyte material and provide it to said first mass spectrometer module.

Systems and methods for loading microfabricated ion traps are disclosed. Photo-ablation via an ablation pulse is used to generate a flow of atoms from a source material, where the flow is predominantly populated with neutral atoms. As the neutral atoms flow toward the ion trap, two-photon photo-ionization is used to selectively ionize a specific isotope contained in the atom flow. The velocity of the liberated atoms, atom-generation rate, and/or heat load of the source material is controlled by controlling the fluence of the ablation pulse to provide high ion-trapping probability while simultaneously mitigating generation of heat in the ion-trapping system that can preclude cryogenic operation. In some embodiments, the source material is held within an ablation oven comprising an electrically conductive housing that is configured to restrict the flow of agglomerated neutral atoms generated during photo-ablation toward the ion trap.

An ion-mobility spectrometer system includes a housing with an upstream end, a downstream end, and a drift region defined along a longitudinal axis through the housing between the upstream and downstream ends. A first ionizer is operatively connected the housing to supply ions at the upstream end. A second ionizer is operatively connected to the housing to supply ions at the upstream end, wherein the first and second ionizers are both situated upstream of the drift zone relative to an ion flow path through the drift zone. An electric field generator is operatively connected to the housing to drive ions through the drift zone in a direction from the upstream end toward the downstream end. The second ionizer is a radioactive ionizer mounted to the housing at the upstream end positioned to direct irradiated ions into the housing.

A method of removing nuclear isobars from a mass spectrometric technique comprising directing ions, decelerating the ions, neutralizing a first portion of the ions, creating residual ions and a second portion of the ions, reionizing a selective portion of the ions, re-accelerating the selective reionized portion of ions, and directing the reionized portion of ions to a detector. An apparatus to remove nuclear isobars comprising a deceleration lens, an equipotential surface, an electron source to neutralize a portion of the ion beam, a deflector pair, a tunable resonance ionization laser for selective resonant reionization, and an acceleration lens.

A method and system to determine mass fraction of aromatic hydrocarbons, sulfur-multi-sulfur, sulfur-nitrogen, multi-sulfur-multi-nitrogen, and nitrogen containing aromatic compound classes present within a petroleum sample. The invention uses total sulfur determination, total nitrogen determination, and elemental formulas determination, with the latter determined through time-of-flight mass spectrometric analysis with atmospheric pressure photo ionization and Fourier-transform ion-cyclotron resonance mass spectrometric analysis with atmospheric pressure photo ionization.

Ion sources for use in mass spectrometry (MS) systems are described. The ion sources each comprise an ion funnel and an ionization source configured to ionize neutral analyte molecules.

Systems and methods for sample analysis include applying, using a first laser source, a first beam to a sample to desorb organic material from a location of the sample and ionizing the desorbed organic material using a second laser source to generate ionized organic material. The ionized organic material is then analyzed using a mass spectrometer. A second beam from the first laser is then applied to the sample to ablate inorganic material from the location of the sample. The ablated inorganic material is then ionized using the second laser source to generate ionized inorganic material. The mass spectrometer is then used to analyze the ionized inorganic material. During analysis, one or more images of the sample may also be captured and linked to the collected analysis data.

A dual source ionizer is provided. The dual source ionizer includes a first photoionization source configured to emit low flux ultraviolet (UV) light to generate primarily NO.sub.3.sup.− ions, and a second photoionization source configured to emit high flux UV light to generate primarily ions other than NO.sub.3.sup.− ions.

Disclosed herein is a method of generating a high resolution image of a cellular sample, the method including i) labeling a cellular sample with at least one mass tag, thereby producing a labeled sample in which a biological feature of interest is associated with the at least one mass tag, ii) scanning the sample with a continuous or near-continuous primary ion beam to generate sputtered secondary ions and sputtered neutral species, iii) photoionizing the sputtered neutrals to generate ionized neutral species, wherein the sputtered neutrals are photoionized at a site that is proximal to their source on the sample, iv) detecting the ionized neutral species by mass spectrometry, thereby obtaining spatially addressed measurements of the abundance of the at least one mass tag across an area of the sample, and v) producing an image of the sample using the measurements. A system for performing the method is also provided.

Embodiments of the present invention relate to replacement of the previous ICP-based ionisation system with a new laser ionisation system, providing improved mass spectrometer-based apparatus and methods for using them to analyse samples, in particular the use of mass spectrometry mass cytometry, imaging mass spectrometry and imaging mass cytometry, for the analysis of biological samples. Accordingly, embodiments of the present invention provide an apparatus, for example a mass cytometer, comprising: 1) a sampler; 2) a laser ionisation system to receive material removed from the sample by the sampler, wherein the laser ionisation system comprises an ionisation system conduit and a pulsed laser adapted to ionise sample material passing through or exiting the ionisation system conduit; and 3) a mass spectrometer to receive elemental ions from said ionisation system and to analyse said elemental ions.