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1

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The particles and fields subsatellite magnetometer experiment (1972)

Russell, C. T. ; Lichtenstein, B. R. ; Coleman, P. J., Jr. ; [et al.]

In: CASI

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Publication Date: 2005-11-30

Description: It is reported that the objectives of the particles and fields subsatellite (PFS) magnetometer experiment are to calculate the interior electrical conductivity of the moon, to survey the remanent magnetization of the lunar surface, and to study the interaction of the moon with its plasma environment. The magnetometers also support the PFS particle experiment by providing onboard magnetic sectoring and a posteriori pitch angle data and plasma diagnostics.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: NASA. Lyndon B. Johnson Space Center Apollo 16 Prelim. Sci. Rept. te]; 13 p

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2

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The Fourier Transform in Interferometric Spectrophotometry (1964)

Sharp, R. L. ; Thekaekara, M. P.

In: CASI

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Publication Date: 2014-08-30

Description: Fourier transform in interferometer spectrometry measurements

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

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Spacelab energetic ion mass spectrometer (1980)

Burrows, J. R. ; Johnson, R. G. ; Whalen, B. A. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: Basic design criteria are given for an ion mass spectrometer for use in studying magnetospheric ion populations. The proposed instrument is composed of an electrostatic analyzer followed by a magnetic spectrometer and simultaneously measures the energy per unit and mass per unit charge of the ion species. An electromagnet is used for momentum analysis to extend the operational energy range over a much wider domain than is possible with the permanent magnets used in previous flights. The energetic ion source regions, ion energization mechanisms, field line tracing, coordinated investigations, and orbit considerations are discussed and operations of the momentum analyzer and of the electrostatic energy analyzer are examined.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: NASA. Marshall Space Flight Center Space Plasma Phys. Active Expt.; p 91-106

Format: application/pdf

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4

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Determining the electron energy distribution near the plasma potential in the earth's ionosphere (1981)

Hays, P. B. ; Cutler, J. R. ; Dobbs, M. E. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: A determination of the plasma potential using an electrostatic analyzer is described in which the potential difference between the instrument slit system and surrounding plasma is minimized. Data obtained from rocket-borne instrumentation demonstrate the viability of this technique for electron fluxes between thermal energies (about 0.5 V) and suprathermal energies (many volts).

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: Review of Scientific Instruments; 52; Feb. 198

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5

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Gridless retarding potential analyzer for use in very-low-energy charged particle detection (1976)

Shyn, T. W. ; Hays, P. B. ; Sharp, W. E.

In: Other Sources

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Publication Date: 2019-06-27

Description: The theory of the hyperbolic retarding potential analyzer in the electrostatic mode is developed in detail and verified in the laboratory. A monoenergetic electron beam is used for the laboratory investigation. The analyzer (acronym HARP) has advantages over other conventional electrostatic analyzers; among them are less contact potential influence and high throughput because of the symmetry shape of the analyzer. The most useful application of the HARP is in detecting low-energy charged particles. A sample of low-energy particle data obtained in the earth's ionosphere is given.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: Review of Scientific Instruments; 47; Sept

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6

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Absolute efficiency measurements for channel electron multipliers utilizing a unique electron source (1970)

Sharp, R. D. ; Shelley, E. G. ; Smith, L. F. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-27

Description: Electron accelerator with broad stable beam for calibration of spectrometers and channel electron multipliers

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: ; TROPHYSICAL JOURNAL

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Characteristics and capacities of the NASA Lewis Research Center high precision 6.7- by 6.7-m planar near-field scanner (1984)

Alexovich, R. E. ; Raquet, C. A. ; Sharp, G. R. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A very precise 6.7- by 6.7-m planar near-field scanner has recently become operational at the NASA Lewis Research Center. The scanner acquires amplitude and phase data at discrete points over a vertical rectangular grid. During the design phase for this scanner, special emphasis was given to the dimensional stability of the structures and the ease of adjustment of the rails that determine the accuracy of the scan plane. A laser measurement system is used for rail alignment and probe positioning. This has resulted in very repeatable horizontal and vertical motion of the probe cart and hence precise positioning in the plane described by the probe tip. The resulting accuracy will support near-field measurements at 60 GHz without corrections. Subsystem design including laser, electronic and mechanical and their performance is described. Summary data are presented on the scan plane flatness and environmental temperature stability. Representative near-field data and calculated far-field test results are presented. Prospective scanner improvements to increase test capability are also discussed.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: NASA-TM-83785 , E-2281 , NAS 1.15:83785 , Meeting of the Antenna Meas. Tech. Assoc.; Oct 02, 1984 - Oct 04, 1984; San Diego, CA; United States

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Structural design of a vertical antenna boresight 18.3 by 18.3-m planar near-field antenna measurement system (1984)

Trimarchi, P. A. ; Wanhainen, J. S. ; Sharp, G. R.

In: CASI

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Publication Date: 2019-07-13

Description: A large very precise near-field planar scanner was proposed for NASA Lewis Research Center. This scanner would permit near-field measurements over a horizontal scan plane measuring 18.3 m by 18.3 m. Large aperture antennas mounted with antenna boresight vertical could be tested up to 60 GHz. When such a large near field scanner is used for pattern testing, the antenna or antenna system under test does not have to be moved. Hence, such antennas and antenna systems can be positioned and supported to simulate configuration in zero g. Thus, very large and heavy machinery that would be needed to accurately move the antennas are avoided. A preliminary investigation was undertaken to address the mechanical design of such a challenging near-field antenna scanner. The configuration, structural design and results of a parametric NASTRAN structural optimization analysis are contained. Further, the resulting design was dynamically analyzed in order to provide resonant frequency information to the scanner mechanical drive system designers. If other large near field scanners of comparable dimensions are to be constructed, the information can be used for design optimization of these also.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: NASA-TM-83781 , E-2274 , NAS 1.15:83781 , Meeting of the Antenna Measurement Techniques Association; Oct 02, 1984 - Oct 04, 1984; San Diego, CA; United States

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