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An electrostatic levitator for high-temperature containerless materials processing in 1-g (1993)

Rhim, Won-Kyu ; Chung, Sang K. ; Barber, Daniel ; [et al.]

[S.l.] : American Institute of Physics (AIP)

Review of Scientific Instruments 64 (1993), S. 2961-2970

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ISSN: 1089-7623

Source: AIP Digital Archive

Topics: Physics , Electrical Engineering, Measurement and Control Technology

Notes: This article discusses recent developments in high-temperature electrostatic levitation technology for containerless processing of metals and alloys. Presented is the first demonstration of an electrostatic levitation technology which can levitate metals and alloys (2–4 mm diam spheres) in vacuum and of superheating-undercooling-recalescence cycles which can be repeated while maintaining good positioning stability. The electrostatic levitator (ESL) has several important advantages over the electromagnetic levitator. Most important is the wide range of sample temperature which can be achieved without affecting levitation. This article also describes the general architecture of the levitator, electrode design, position control hardware and software, sample heating, charging, and preparation methods, and operational procedures. Particular emphasis is given to sample charging by photoelectric and thermionic emission. While this ESL is more oriented toward ground-based operation, an extension to microgravity applications is also addressed briefly. The system performance was demonstrated by showing multiple superheating-undercooling-recalescence cycles in a zirconium sample (Tm=2128 K). This levitator, when fully matured, will be a valuable tool both in Earth-based and space-based laboratories for the study of thermophysical properties of undercooled liquids, nucleation kinetics, the creation of metastable phases, and access to a wide range of materials with novel properties.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1063/1.1144475

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Paper (German National Licenses)

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An electrostatic levitator for high‐temperature containerless materials processing in 1‐g (1993)

Rhim, Won‐Kyu ; Chung, Sang K. ; Barber, Daniel ; [et al.]

American Institute of Physics

In: Review of Scientific Instruments. 1993; 64(10): 2961-2970. Published 1993 Oct 01. doi: 10.1063/1.1144475.

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Publication Date: 1993-10-01

Print ISSN: 0034-6748

Electronic ISSN: 1089-7623

Topics: Electrical Engineering, Measurement and Control Technology , Physics

Published by American Institute of Physics

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Numerical modelling of electrostatic and electromagnetic positioners for microgravity containerless processing (1992)

Wagner, Paul A. ; Gutt, Gary M.

In: Other Sources

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Publication Date: 2019-06-28

Description: Numerical, three-dimensional, finite-difference and finite-element models of electrostatic and electromagnetic positioners are developed. These models allow a better understanding of the effects of the positioner on the sample during processing in microgravity and provide an engineering tool for optimizing the design of these positioners.

Keywords: MATERIALS PROCESSING

Type: IAF PAPER 92-0915

Format: text

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Corner-Cube Retroreflector Instrument for Advanced Lunar Laser Ranging (2012)

Baran, Richard T. ; Gutt, Gary M. ; Williams, James G. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: A paper describes how, based on a structural-thermal-optical-performance analysis, it has been determined that a single, large, hollow corner cube (170- mm outer diameter) with custom dihedral angles offers a return signal comparable to the Apollo 11 and 14 solid-corner-cube arrays (each consisting of 100 small, solid corner cubes), with negligible pulse spread and much lower mass. The design of the corner cube, and its surrounding mounting and casing, is driven by the thermal environment on the lunar surface, which is subject to significant temperature variations (in the range between 70 and 390 K). Therefore, the corner cube is enclosed in an insulated container open at one end; a narrow-bandpass solar filter is used to reduce the solar energy that enters the open end during the lunar day, achieving a nearly uniform temperature inside the container. Also, the materials and adhesive techniques that will be used for this corner-cube reflector must have appropriate thermal and mechanical characteristics (e.g., silica or beryllium for the cube and aluminum for the casing) to further reduce the impact of the thermal environment on the instrument's performance. The instrument would consist of a single, open corner cube protected by a separate solar filter, and mounted in a cylindrical or spherical case. A major goal in the design of a new lunar ranging system is a measurement accuracy improvement to better than 1 mm by reducing the pulse spread due to orientation. While achieving this goal, it was desired to keep the intensity of the return beam at least as bright as the Apollo 100-corner-cube arrays. These goals are met in this design by increasing the optical aperture of a single corner cube to approximately 170 mm outer diameter. This use of an "open" corner cube allows the selection of corner cube materials to be based primarily on thermal considerations, with no requirements on optical transparency. Such a corner cube also allows for easier pointing requirements, because there is no dependence on total internal reflection, which can fail off-axis.

Keywords: Instrumentation and Photography

Type: NPO-47489 , NASA Tech Briefs, January 2012; 39

Format: application/pdf

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Dual-Photoelastic-Modulator-Based Polarimetric Imaging Concept for Aerosol Remote Sensing (2007)

Cairns, Brian ; Davis, Ab ; Hancock, Bruce ; [et al.]

In: Other Sources

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Publication Date: 2019-08-27

Description: A dual-photoelastic-modulator- (PEM-) based spectropolarimetric camera concept is presented as an approach for global aerosol monitoring from space. The most challenging performance objective is to measure degree of linear polarization (DOLP) with an uncertainty of less than 0.5% in multiple spectral bands, at moderately high spatial resolution, over a wide field of view, and for the duration of a multiyear mission. To achieve this, the tandem PEMs are operated as an electro-optic circular retardance modulator within a high-performance reflective imaging system. Operating the PEMs at slightly different resonant frequencies generates a beat signal that modulates the polarized component of the incident light at a much lower heterodyne frequency. The Stokes parameter ratio q = Q/I is obtained from measurements acquired from each pixel during a single frame, providing insensitivity to pixel responsivity drift and minimizing polarization artifacts that conventionally arise when this quantity is derived from differences in the signals from separate detectors. Similarly, u = U/I is obtained from a different pixel; q and u are then combined to form the DOLP. A detailed accuracy and tolerance analysis for this polarimeter is presented.

Keywords: Earth Resources and Remote Sensing

Type: Applied Optics; 46; 35; 8428-8445

Format: text

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Polarimetric Imaging using Two Photoelastic Modulators (2009)

Cunningham, Thomas ; Wang, Yu ; Diner, David ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: A method of polarimetric imaging, now undergoing development, involves the use of two photoelastic modulators in series, driven at equal amplitude but at different frequencies. The net effect on a beam of light is to cause (1) the direction of its polarization to rotate at the average of two excitation frequencies and (2) the amplitude of its polarization to be modulated at the beat frequency (the difference between the two excitation frequencies). The resulting modulated optical light beam is made to pass through a polarizing filter and is detected at the beat frequency, which can be chosen to equal the frame rate of an electronic camera or the rate of sampling the outputs of photodetectors in an array. The method was conceived to satisfy a need to perform highly accurate polarimetric imaging, without cross-talk between polarization channels, at frame rates of the order of tens of hertz. The use of electro-optical modulators is necessitated by a need to obtain accuracy greater than that attainable by use of static polarizing filters over separate fixed detectors. For imaging, photoelastic modulators are preferable to such other electrio-optical modulators as Kerr cells and Pockels cells in that photoelastic modulators operate at lower voltages, have greater angular acceptances, and are easier to use. Prior to the conception of the present method, polarimetric imaging at frame rates of tens of hertz using photoelastic modulators was not possible because the resonance frequencies of photoelastic modulators usually lie in the range from about 20 to about 100 kHz.

Keywords: Optics

Type: NPO-43806 , NASA Tech Briefs, May 2009; 29

Format: application/pdf

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Using a Quadtree Algorithm To Assess Line of Sight (2006)

Chamberlain, Robert ; Gutt, Gary ; Tailor, Eric ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: A matched pair of computer algorithms determines whether line of sight (LOS) is obstructed by terrain. These algorithms were originally designed for use in conjunction with combat-simulation software in military training exercises, but could also be used for such commercial purposes as evaluating lines of sight for antennas or determining what can be seen from a "room with a view." The quadtree preparation algorithm operates on an array of digital elevation data and only needs to be run once for a terrain region, which can be quite large. Relatively little computation time is needed, as each elevation value is considered only one and one-third times. The LOS assessment algorithm uses that quadtree to answer LOS queries. To determine whether LOS is obstructed, a piecewise-planar (or higher-order) terrain skin is computationally draped over the digital elevation data. Adjustments are made to compensate for curvature of the Earth and for refraction of the LOS by the atmosphere. Average computing time appears to be proportional to the number of queries times the logarithm of the number of elevation data points. Accuracy is as high as is possible for the available elevation data, and symmetric results are assured. In the simulation, the LOS query program runs as a separate process, thereby making more random-access memory available for other computations.

Keywords: Man/System Technology and Life Support

Type: MSC-23665 , NASA Tech Briefs, January 2006; 11

Format: application/pdf

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Plumes on Venus: Clues to the Planet's Interior (2013)

Gutt, Gary ; Smrekar, Sue

In: Other Sources

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Lunar and Planetary Science and Exploration

Type: 2013 SC - International Conference for High Performance Computing, Networking, Storage and Analysis; Nov 17, 2013 - Nov 22, 2013; Denver, CO; United States

Format: text

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Use of Photoelastic Modulators for High-accuracy Spectropolarimetric Imaging of Aerosols (2006)

Wang, Yu ; Hirschy, Linda ; Davis, Ab ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Passive multiangular, multispectral, and polarimetric sensing approaches each have unique strengths for the measurement of tropospheric aerosol column abundances and microphysical properties. Current spaceborne multispectral and multiangular aerosols sensors operate at approximately 1 km resolution. Under NASA's Instrument Incubator Program, we are developing an electro-optic imaging approach that will enable adding high-accuracy polarimetry to such observations. To achieve a degree of linear polarization (DOLP) uncertainty of 0.5%, our approach temporally modulates the linear-polarization component of incoming light at a rapid rate, enabling each detector within a focal-plane array, combined with polarization analyzers, to measure the relative proportions of the linear Stokes components Q or U to the total intensity. Our system uses tandem photoelastic modulators (PEMs) within a high-reflectance, low diattenuation camera design. The two PEMs vibrate at slightly different resonant frequencies, leading to modulation of the polarized light at a heterodyne frequency of ~25 Hz. High-speed (1 kHz) readout of the detector arrays samples the output waveforms from which Q/I and U/I are derived. We report on experimental and theoretical analyses of PEM and optical system performance, along with plans for developing ruggedized PEMs capable of withstanding launch and on-orbit stresses.

Keywords: Optics

Type: 2006 Earth Science Technology Conference (ESTC-06)2006; Jun 26, 2006; College Park, MD; United States

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