Abstract: Metallic powders are formed by the electrically exploded wire (EEW) process. An apparatus (20) for manufacturing such powders includes a closed loop recirculating gas path between a reaction chamber (100) and an extractor (32). A wire (31) is delivered from a source (400) along a wire path from ambient conditions outside the chamber to within the chamber. Within the chamber, a first electrode (200) has an aperture circumscribing the wire path and a second electrode (203) is located proximate to a terminal end of the wire path. A source (26) of electrical energy applies a discharge voltage between the electrodes to explode the length of wire therebetween to form an initial particulate. The initial particulate may be selectively extracted and processed to produce desired powders, in particular, energetic powders which are passivated for stability under ambient conditions.

Abstract: The invention relates to a set of combinatorially labeled oligonucleotide probes each member thereof: (i) having a predetermined label distinguishable from the label of any other member of said set, and (ii) being capable of specifically hybridizing with a predetermined chromosome or nucleic acid molecule, and to the use of such molecules, alone or in concert with nucleic acid amplification methods.

Abstract: The invention relates to a set of combinatorially labeled oligonucleotide probes each member thereof: (i) having a predetermined label distinguishable from the label of any other member of said set, and (ii) being capable of specifically hybridizing with a predetermined chromosome or nucleic acid molecule, and to the use of such molecules, alone or in concert with nucleic acid amplification methods.

Abstract: The invention relates to a set of combinatorially labeled oligonucleotide probes each member thereof: (i) having a predetermined label distinguishable from the label of any other member of said set, and (ii) being capable of specifically hybridizing with a predetermined chromosome or nucleic acid molecule, and to the use of such molecules, alone or in concert with nucleic acid amplification methods.

Abstract: The invention relates to a set of combinatorially labeled oligonucleotide probes each member thereof: (i) having a predetermined label distinguishable from the label of any other member of said set, and (ii) being capable of specifically hybridizing with a predetermined chromosome or nucleic acid molecule, and to the use of such molecules, alone or in concert with nucleic acid amplification methods.

Abstract: The invention relates to a set of combinatorially labeled oligonucleotide probes each member thereof: (i) having a predetermined label distinguishable from the label of any other member of said set, and (ii) being capable of specifically hybridizing with a predetermined chromosome or nucleic acid molecule, and to the use of such molecules, alone or in concert with nucleic acid amplification methods.

Abstract: An imaging scheme for illuminating an object having a plurality of fluors comprising: a light source for simultaneously illuminating the object with light having a plurality of separate excitation bands respectively falling within the fluorescent absorption bands of the fluors; and a detector positioned to receive fluorescent light from the fluors having wavelengths corresponding to the respective fluorescence emission bands of the fluors and adapted to produce a signal representative of the intensity of light received from the object. Also disclosed is an optical filtering scheme for receiving light having a first wavelength distribution and for providing light having a second selected wavelength distribution different from the first wavelength distribution. The above-mentioned imaging and filtering schemes enable simultaneous excitation and detection of a plurality of fluors, while preventing corruption by scattered or reflected excitation light.