Abstract: Embodiments of the invention are directed to an optoelectronic device for detection and identification of individual water droplets, ice crystals, dust particles and volcanic ash particles, the device comprising a source of ultraviolet collimated monochromatic radiation that illuminates an area of air external to the aircraft through which freely pass individual atmospheric particles to create an illuminated sample volume of air; an optical surveillance system for monitoring the clarity of light transmission through the light transmissive window to indicate a need for preventive maintenance; a first optical detection system that is constructed and arranged to collect light scattered from individual particles over an explicit angle ranging from 137° to 173° that defines the illuminated sample volume for measurement of S and P components of return scattered light from the sample volume to photodetectors that provide signals representative of intensity and change in polarization state caused by the interaction o

Abstract: Embodiments of the invention are directed to an optoelectronic device for detection and identification of individual water droplets, ice crystals, dust particles and volcanic ash particles, the device comprising a source of ultraviolet collimated monochromatic radiation that illuminates an area of air external to the aircraft through which freely pass individual atmospheric particles to create an illuminated sample volume of air; an optical surveillance system for monitoring the clarity of light transmission through the light transmissive window to indicate a need for preventive maintenance; a first optical detection system that is constructed and arranged to collect light scattered from individual particles over an explicit angle ranging from 137° to 173° that defines the illuminated sample volume for measurement of S and P components of return scattered light from the sample volume to photodetectors that provide signals representative of intensity and change in polarization state caused by the interaction o

Abstract: An integrated particle detection apparatus for optical detection of particles in an air stream. The particle detection apparatus includes a scalper for removing large particles from the air stream, a concentrator for separating out small particles and increasing the concentration of particles of interest, and a fluorescence sensor system for detecting the particles present in the air stream. The scalper, concentrator and sensor may include a single integrated unit, such that the scalper is fluidly contiguous with the concentrator and the concentrator is fluidly contiguous with the sensor.

Abstract: A particle separation apparatus is disclosed. The particle separation apparatus may be for sample air stream preparation and delivery in particle detection systems. The particle separation apparatus may include a first vortex separator coupled to a second vortex separator for selecting particles in the air stream that are within a desirable size range for particle detection. The second vortex separator may further increase the concentration of particles within the desirable size range per unit volume. The particle separation apparatus may deliver the size-selected air stream to a detector, such as a laser-induced fluorescence detection system.

Abstract: An integrated particle detection apparatus for optical detection of particles in an air stream. The particle detection apparatus includes a scalper for removing large panicles from the air stream, a concentrator for separating out small particles and increasing the concentration of particles of interest, and a fluorescence sensor system for detecting the particles present in the air stream. The scalper, concentrator and sensor comprise a single integrated unit, such that the scalper is fluidly contiguous with the concentrator and the concentrator is fluidly contiguous with the sensor.

Abstract: A substrate and apparatus for qualitatively and quantitatively detecting constituents of an environment by surface enhanced Raman spectroscopy. The substrate is composed of two separate phases: an adsorbing phase which has an affinity for the molecular constituents of interest, and a metallic phase that possesses the specific geometry, chemical and electromagnetic properties required to enhance emission of Raman signal frequencies of adsorbed molecules. An apparatus is provided which includes a monochromatic light source, a means to transmit the desired wavelength from the light source to the surface substrate surface, a means to collect the scattered Raman signal frequencies and transmit them to a detector, and a means to analyze the recorded response.

Abstract: A fiber-optic probe which is useful for measuring Raman spectra of samples remote from the light source and detector. The probe head contains optical components which selectively remove unwanted fluorescence and Raman scattering arising from the interaction between the Raman excitation source radiation and the input optical fiber. The optics also filter the Raman excitation source into a return optical fiber leading to a spectrometer or detector. In one embodiment, the disposition of optical components provides a compact probe geometry with parallel input and output fibers at one end and a sampling port at the other end. An encasement for the optics is also disclosed, for sealing the components against the environment, and for coupling the probe to specialized sampling attachments, such as for conducting Surface Enhanced Raman Spectroscopy.