Abstract: An apparatus and method for testing composite structures in which ultrasonic waves are used to detect disbonds in the structures are described. The apparatus comprises a flexible structure carrying acousto-optical transducers such as fiber Bragg gratings. During use, the apparatus is mechanically and conformally coupled to the structure under test.

Abstract: An apparatus and method for testing composite structures in which ultrasonic waves are used to detect disbonds in the structures are described. The apparatus comprises a flexible structure carrying acousto-optical transducers such as fiber Bragg gratings. During use, the apparatus is mechanically and conformally coupled to the structure under test.

Abstract: An apparatus and method for increasing the resolution of a linear array of fiber Bragg gratings by applying a plastic coating having a high CTE over the optical fiber. Apparatus and method for determining the temperature of each of a succession of points along a tissue portion during hyperthermia treatment includes an optical fiber with a succession of closely spaced fiber Bragg gratings. Each grating is responsive to a different wavelength and is sensitive to ambient temperature to change that wavelength as a function of temperature. A tunable laser operative continuously over a range of wavelengths including those to which the gratings respond is used to interrogate the gratings. Sensitivity-enhancing coatings are used on the fibers and the lasers are tuned over very short time cycles.

Abstract: Bacteria accumulations on the interior walls of a fluid conduit are detected by placing a bacterial target substrate in the conduit. The substrate is structured to allow bacteria to colonize it at at least the rate of accumulation expected on the conduit walls or at an accelerated rate in order to preempt normal bacteria accumulation on the walls. A bacteria getter may be used to accelerate bacterial colonization of the substrate. An excitation signal interrogating the substrate causes autofluorescence in the presence of bacteria, specifically from NADH and/or NADPH present. The autofluorescent emission is transmitted to a detector and processor. In one system when the presence of bacteria at a preset level is detected there is initiated a diversion of the fluid into an auxiliary subsystem during which the primary subsystem is remediated.

Abstract: An apparatus and method for increasing the resolution of a linear array of fiber Bragg gratings by applying a plastic coating having a high CTE over the optical fiber. Apparatus and method for determining the temperature of each of a succession of points along a tissue portion during hyperthermia treatment includes an optical fiber with a succession of closely spaced fiber Bragg gratings. Each grating is responsive to a different wavelength and is sensitive to ambient temperature to change that wavelength as a function of temperature. A tunable laser operative continuously over a range of wavelengths including those to which the gratings respond is used to interrogate the gratings. Sensitivity-enhancing coatings are used on the fibers and the lasers are tuned over very short time cycles.

Abstract: An apparatus and method for testing composite structures in which ultrasonic waves are used to detect disbonds in the structures are described. The apparatus comprises a flexible structure carrying acousto-optical transducers such as fiber Bragg gratings. During use, the apparatus is mechanically and conformally coupled to the structure under test.

Abstract: An apparatus and method for increasing the resolution of a linear array of fiber Bragg gratings by applying a plastic coating having a high CTE over the optical fiber. Apparatus and method for determining the temperature of each of a succession of points along a tissue portion during hyperthermia treatment includes an optical fiber with a succession of closely spaced fiber Bragg gratings. Each grating is responsive to a different wavelength and is sensitive to ambient temperature to change that wavelength as a function of temperature. A tunable laser operative continuously over a range of wavelengths including those to which the gratings respond is used to interrogate the gratings. Sensitivity-enhancing coatings are used on the fibers and the lasers are tuned over very short time cycles.

Abstract: Bacteria accumulations on the interior walls of a fluid conduit are detected by placing a bacterial target substrate in the conduit. The substrate is structured to allow bacteria to colonize it at at least the rate of accumulation expected on the conduit walls or at an accelerated rate in order to preempt normal bacteria accumulation on the walls. A bacteria getter may be used to accelerate bacterial colonization of the substrate. An excitation signal interrogating the substrate causes autofluorescence in the presence of bacteria, specifically from NADH and/or NADPH present. The autofluorescent emission is transmitted to a detector and processor. In one system when the presence of bacteria at a preset level is detected there is initiated a diversion of the fluid into an auxiliary subsystem during which the primary subsystem is remediated.

Abstract: Bacteria accumulations on the interior walls of a fluid conduit are detected by placing a bacterial target substrate the conduit. The substrate structured to allow bacteria to colonize it at at least the rate of accumulation expected on the conduit walls or at an accelerated rate in order to preempt normal bacteria accumulation on the walls. A bacteria getter may be used to accelerate bacterial colonization of the substrate. An excitation signal interrogating the substrate causes autofluorescence in the presence of bacteria, specifically from NADH and/or NADPH present. The autofluorescent emission is transmitted to a detector and processor. In one system when the presence of bacteria at a preset level is detected there is initiated a diversion of the fluid into an auxiliary subsystem during which the primary subsystem is remediated.