2,432 research outputs found
Time-resolved quantitative multiphase interferometric imaging of a highly focused ultrasound pulse
Interferometric imaging is a well established method to image phase objects
by mixing the image wavefront with a reference one on a CCD camera. It has also
been applied to fast transient phenomena, mostly through the analysis of single
interferograms. It is shown that for repetitive phenomena multiphase
acquisition brings significant advantages. A 1 MHz focused sound field emitted
by a hemispherical piezotransducer in water is imaged as an example.
Quantitative image analysis provides high resolution sound field profiles.
Pressure at focus determined by this method agrees with measurements from a
fiber-optic probe hydrophone. This confirms that multiphase interferometric
imaging can indeed provide quantitative measurements
Linear laser diode arrays for improvement in optical disk recording for space stations
The design and fabrication of individually addressable laser diode arrays for high performance magneto-optic recording systems are presented. Ten diode arrays with 30 mW cW light output, linear light vs. current characteristics and single longitudinal mode spectrum were fabricated using channel substrate planar (CSP) structures. Preliminary results on the inverse CSP structure, whose fabrication is less critically dependent on device parameters than the CSP, are also presented. The impact of systems parameters and requirements, in particular, the effect of feedback on laser design is assessed, and techniques to reduce feedback or minimize its effect on systems performance, including mode-stabilized structures, are evaluated
Ultrafast quantum key distribution using fully parallelized quantum channels
The field of quantum information processing offers secure communication
protected by the laws of quantum mechanics and is on the verge of finding wider
application for information transfer of sensitive data. To overcome the
obstacle of inadequate cost-efficiency, extensive research is being done on the
many components required for high data throughput using quantum key
distribution (QKD). Aiming for an application-oriented solution, we report on
the realization of a multichannel QKD system for plug-and-play high-bandwidth
secure communication at telecom wavelength. For this purpose, a rack-sized
multichannel superconducting nanowire single photon detector (SNSPD) system, as
well as a highly parallelized time-correlated single photon counting (TCSPC)
unit have been developed and linked to an FPGA-controlled QKD evaluation setup
allowing for continuous operation and achieving high secret key rates using a
coherent-one-way protocol.Comment: 13 pages, 6 figure
Aerospace Medicine and Biology
This bibliography lists 184 reports, articles and other documents introduced into the NASA Scientific and Technical Information System during October 1989. Subject coverage includes: aerospace medicine and psychology, life support systems and controlled environments, safety equipment, exobiology and extraterrestrial life, and flight crew behavior and performance
Advanced space system concepts and their orbital support needs (1980 - 2000). Volume 1: Executive summary
The likely system concepts which might be representative of NASA and DoD space programs in the 1980-2000 time period were studied along with the programs' likely needs for major space transportation vehicles, orbital support vehicles, and technology developments which could be shared by the military and civilian space establishments in that time period. Such needs could then be used by NASA as an input in determining the nature of its long-range development plan. The approach used was to develop a list of possible space system concepts (initiatives) in parallel with a list of needs based on consideration of the likely environments and goals of the future. The two lists thus obtained represented what could be done, regardless of need; and what should be done, regardless of capability, respectively. A set of development program plans for space application concepts was then assembled, matching needs against capabilities, and the requirements of the space concepts for support vehicles, transportation, and technology were extracted. The process was pursued in parallel for likely military and civilian programs, and the common support needs thus identified
Advanced Engineering Laboratory project summaries 1994
The Advanced Engineering Laboratory of the Woods Hole Oceanographic Institution is a development laboratory within the
Applied Ocean Physics and Engineering Department. Its function is the development of oceanographic instrumentation to test
developing theories in oceanography and to enhance current research projects in other disciplines within the community. This
report summarizes recent and ongoing projects performed by members of this laboratory
Opto-VLSI processing for reconfigurable optical devices
The implementation of Wavelength Division Multiplexing system (WDM) optical fibre transmission systems has the potential to realise this high capacity data rate exceeding 10 Tb/s. The ability to reconfigure optical networks is a desirable attribute for future metro applications where light paths can be set up or taken down dynamically as required in the network. The use of microelectronics in conjunction with photonics enables intelligence to be added to the high-speed capability of photonics, thus realising reconfigurable optical devices which can revolutionise optical telecommunications and many more application areas. In this thesis, we investigate and demonstrate the capability of Opto-VLSI processors to realise a reconfigurable WDM optical device of many functions, namely, optical multiband filtering, optical notch filtering, and reconfigurable-Optical-Add-Drop Multiplexing (ROADM). We review the potential technologies available for tunable WDM components, and discuss their advantages and disadvantages. We also develop a simple yet effective algorithm that optimises the performance of Opto-VLSI processors, and demonstrate experimentally the multi-function WDM devices employing Opto-VLSI processors. Finally, the feasibility of Opto-VLSI-based WDM devices in meeting the stringent requirements of the optical communications industry is discussed
Imaging IR spectrometer, phase 2
The development is examined of a prototype multi-channel infrared imaging spectrometer. The design, construction and preliminary performance is described. This instrument is intended for use with JPL Table Mountain telescope as well as the 88 inch UH telescope on Mauna Kea. The instrument is capable of sampling simultaneously the spectral region of 0.9 to 2.6 um at an average spectral resolution of 1 percent using a cooled (77 K) optical bench, a concave holographic grating and a special order sorting filter to allow the acquisition of the full spectral range on a 128 x 128 HgCdTe infrared detector array. The field of view of the spectrometer is 0.5 arcsec/pixel in mapping mode and designed to be 5 arcsec/pixel in spot mode. The innovative optical design has resulted in a small, transportable spectrometer, capable of remote operation. Commercial applications of this spectrometer design include remote sensing from both space and aircraft platforms as well as groundbased astronomical observations
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