Abstract: A relatively compact dual ion composition instrument and associated methodology for measuring plasma and ion populations in a variety of interplanetary and planetary environments. The unitary device can measure mass and ionic charge state compositions and 3D velocity distributions of 10 eV/q to 40 keV/q plasma and pick-up ions; and (2) mass composition, energy spectra and angular distributions of 30 keV to 10 MeV energetic ions.

Abstract: An ungated, time-of-flight ion mass spectrograph utilizing a continuous ion beam that is rastered (swept) by electrostatic deflection plates at the entrance of a time-of-flight drift tube is described. After an ion is deflected, it follows a trajectory in the drift tube that depends on the phase of the raster and is detected by a position-sensitive detector. The detected position provides information concerning the time when the ion entered the drift tube. This information, when combined with knowledge of the raster voltage at the time that the ion was detected, provides a method for determining the time-of-flight of the ion in the drift tube. Using the time-of-flight and the distance traveled in the drift tube, which is also determined by the detected position of the ion, ion speed is determined. Ion mass-per-charge ratio can then be determined for a monoenergetic ion beam.

Abstract: Apparatus and method for rapid detection of explosives residue from the deflagration signature thereof. A property inherent to most explosives is their stickiness, resulting in a strong tendency of explosive particulate to contaminate the environment of a bulk explosive. An apparatus for collection of residue particulate, burning the collected particulate, and measurement of the ultraviolet emission produced thereby, is described. The present invention can be utilized for real-time screening of personnel, cars, packages, suspected devices, etc., and provides an inexpensive, portable, and noninvasive means for detecting explosives.

Abstract: Apparatus and method for rapid detection of explosives residue from the deflagration signature thereof. A property inherent to most explosives is their stickiness, resulting in a strong tendency of explosive particulate to contaminate the environment of a bulk explosive. An apparatus for collection of residue particulate, burning the collected particulate, and measurement of the optical emission produced thereby is described. The present invention can be utilized for real-time screening of personnel, cars, packages, suspected devices, etc., and provides an inexpensive, portable, and noninvasive means for detecting explosives.

Abstract: The compact hydrogen and helium isotope mass spectrometer of the present invention combines low mass-resolution ion mass spectrometry and beam-foil interaction technology to unambiguously detect and quantify deuterium (D), tritium (T), hydrogen molecule (H.sub.2, HD, D.sub.2, HT, DT, and T.sub.2), .sup.3 He, and .sup.4 He concentrations and concentration variations. The spectrometer provides real-time, high sensitivity, and high accuracy measurements. Currently, no fieldable D or molecular speciation detectors exist. Furthermore, the present spectrometer has a significant advantage over traditional T detectors: no confusion of the measurements by other beta-emitters, and complete separation of atomic and molecular species of equivalent atomic mass (e.g., HD and .sup.3 He).

Abstract: A mass spectrometer and methods for mass spectrometry. The apparatus is compact and of low weight and has a low power requirement, making it suitable for use on a space satellite and as a portable detector for the presence of substances. High mass resolution measurements are made by timing ions moving through a gridless cylindrically symmetric linear electric field.