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Extending the ICRF to Higher Radio Frequencies (2002)

Lowe, S. T. ; Zhang, L. D. ; Steppe, J. A. ; [et al.]

In: CASI

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Publication Date: 2004-12-03

Description: The ICRF forms the basis for all astrometry including use as the inertial coordinate system for navigating deep space missions. This frame was defined using S/X-band observations over the past 20+ years. In January 2002, the VLBA approved our proposal for observing time to extend the ICRF to K-band (24 GHz) and Q-band (43 GHz). The first step will be observations at K- and Q-bands on a subset of ICRF sources. Eventually, K- and Q-band multi-epoch observations will be used to estimate positions, flux density and source structure for a large fraction of the current S/X-band ICRF source list. This work will benefit the radio astronomy community by extending the VLBA calibrator list at these bands. In the longer term, we would also like to extend the ICRF to Ka-band (32 GHz). A celestial reference frame will be needed at this frequency to support deep space navigation. A navigation demonstration is being considered for NASA's Mars 2005 mission. The initial K- and Q-band work will serve to identify candidate sources at Ka-band for use with that mission.

Keywords: Communications and Radar

Type: International VLBI Service for Geodesy and Astrometry General Meeting Proceeding; 350-354; NASA/CP-2002-210002

Format: text

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2

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Microwave radiometer measurement of water vapor path delay: Data reduction techniques (1978)

Claflin, E. S. ; Resch, G. M. ; Wu, S. C.

In: CASI

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Publication Date: 2006-01-12

Description: Data reduction techniques are developed to compensate for water vapor path delay, a limiting error source in geodetic measurements made with very long baseline interferometry and in radio ranging to spacecraft. It is shown that water vapor path delay is proportional to a linear combination of saturation-corrected sky brightness temperatures, measured on and off the water vapor line. The effects of emission from liquid water droplets in clouds as well as most of the oxygen emission are removed by the off-line channel. Sky brightness temperatures are saturation-corrected or 'linearized' using estimates of effective sky temperatures made from surface temperature. Tipping curves are used to remove instrumental error. Coefficients are found by two methods: from a regression analysis of measured brightness temperatures versus radiosonde measured delay, and from a regression analysis of theoretical brightness temperatures versus radiosonde measured delay. In each case the coefficients are adjusted for differing climatic conditions by measurements of surface temperature, pressure, and relative humidity. Regression solutions are constrained to remove liquid water contributions and to give the correct slope for radiometer versus radiosonde path delay.

Keywords: GEOPHYSICS

Type: The Deep Space Network; p 22-30

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3

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Response of the mobile VLBI design to error sources (1983)

Brunn, M. L. ; Niell, A. E. ; Wallace, K. S. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-18

Description: The response of Mobile VLBI design to error sources is addressed. The sensitivity of the hydrogen maser to variations in ambient temperature is discussed, with an example of drifts in the frequency system causing excursions in the time-delay observable exceeding + or - 200 cm. It is shown that baselines determined only from S-band data can contain errors in excess of 30 cm during periods of high ionospheric activity. The effect of the troposphere on baseline solutions is examined by comparing calibrations from the Water Vapor Radiometer (WVR) to those from a surface model. The apparent ability of the WVR to track relatively short-period fluctuations in water vapor is noted. Finally, consideration is given to the effects of source structure and the technique of monitoring closure of the time-delay observable around a closed figure of baselines.

Keywords: GEOPHYSICS

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4

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Cygnus X-3 radio source - Lower limit on size and upper limit on distance. (1972)

Marandino, G. E. ; Catuna, G. W. ; Resch, G. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-16

Keywords: SPACE SCIENCES

Type: Nature Physical Science; 240; Dec. 18

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5

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Description and overview of an instrument designed to measure line-of-sight delay due to water vapor (1983)

Chavez, M. C. ; Yamane, N. I. ; Resch, G. M.

In: Other Sources

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Publication Date: 2011-08-18

Description: Eight dual channel microwave radiometers were constructed as a research and development effort for the Crustal Dynamics Project and the Deep Space Network. These instruments, known as water vapor radiometers, are primarily intended to demonstrate that the variable path delay imposed by atmospheric water vapor can be calibrated in microwave tracking and distance measuring systems but could also be used in other applications involving moist air meteorology and propagation studies. They are being deployed to various stations and observatories that participate in Very Long Baseline Interferometry experiments. The development history of these instruments are reviewed, the theory of operation and overall design considerations are outlined, and the instrumental parameters and performance characteristics are described.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: The Telecommun. and Data Acquisition Rept.; p 1-19

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6

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Tropospheric monitoring technology for gravity wave experiments (1989)

Treuhaft, R. N. ; Resch, G. M.

In: CASI

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Publication Date: 2013-08-31

Description: Tropospheric refractivity fluctuations are an important error source for gravity wave detection by Doppler tracking in that they alter the phase and phase rate of electromagnetic signals. Estimates are presented of the effect of tropospheric fluctuations on the Doppler signal and some examples are suggested of methods which minimize the effect. A model of the fluctuations is utilized to achieve those goals. Four possible methods for reducing the fluctuation effect are suggested: (1) observation and analysis strategies, which separate the atmospheric and gravity wave signatures; (2) water vapor radiometry for the wet component; (3) calibration using Global Positioning System (GPS) satellites; and (4) Doppler observations from multiple antennas to average fluctuation effects. The last two techniques could be used to calibrate both wet and dry fluctuations, or could be used in conjunction with water vapor radiometry to calibrate only the dry component.

Keywords: ASTROPHYSICS

Type: NASA, Relativistic Gravitational Experiments in Space; p 179-185

Format: application/pdf

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Overview

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Inversion Algorithms for Water Vapor Radiometers Operating at 20.7 and 31.4 Ghz (1984)

Resch, G. M.

In: CASI

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Publication Date: 2014-09-10

Description: Eight water vapor radiometers (WVRs) were constructed as research and development tools to support the Advanced System Programs in the Deep Space Network and the Crustal Dynamics Project. These instruments are intended to operate at the stations of the Deep Space Network (DSN), various radio observatories, and obile facilities that participate in very long baseline interferometric (VLBI) experiments. It is expected that the WVRs will operate in a wide range of meteorological conditions. Several algorithms are discussed that are used to estimate the line-of-sight path delay due to water vapor and columnar liquid water rom the observed microwave brightness temperatures provided by the WVRs. In particular, systematic effects due to site and seasonal variations are examined. The accuracy of the estimation as indicated by a simulation calculation is approximately 0.3 cm for a noiseless WVR in clear and moderately cloudy weather. With a realistic noise model of WVR behavior, the inversion accuracy is approximately 0.6 cm.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: The Telecommun. and Data Acquisiton Rept.; p 12-26

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8

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Another Look at the Optimum Frequencies for a Water Vapor Radiometer (1984)

Resch, G. M.

In: CASI

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Publication Date: 2014-09-10

Description: A water vapor radiometer is used to estimate the columnar content of atmospheric water vapor or equivalently the line-of-sight path delay due to water vapor. Two measurement channels are used in order to separate the effects of the liquid and vapor phases of water. The efficiency of the path delay or columnar vapor estimate is dependent on the choice of on-line frequency channel. Previous analysis of this problem has suggested frequencies from 20.3 to 21 GHz. The frequency that yields the minimum error in the inversion algorithm is shown here to be both site and season dependent. Hence, the concept of an optimum frequency must represent an averaging process over the entire range of meteorological conditions that is expected. For a range of sites and condition representing a cross section of the continental United States the optimum on-line frequency seems to be 20.6 GHz.

Keywords: INSTRUMENTATION AND PHOTOGRAPHY

Type: The Telecommun. and Data Acquisition Rept.; p 1-11

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9

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Meter-wavelength VLBI. I - Cassiopeia A (1974)

Erickson, W. C. ; Resch, G. M. ; Youmans, A. B. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-16

Description: Very-long-baseline interferometric observations of the supernova remnant Cassiopeia A, at 74 MHz with a 12,000-wavelength baseline and at 111 MHz with a 18,500-wavelength baseline, are reported. The fringe amplitudes are strongly varying on a time scale of about 15 to 30 minutes, which is attributed to much the same complex structure as that observed at higher frequencies, plus one other compact source. Due to the poor (u, nu)-plane coverage, the location of the extra source can not be isolated unambiguously, but possibilities are suggested. The source must lie outside the supernova remnant shell, possibly associated with a concentration of emission north of the shell, or lying outside the gap in the northeastern side of the shell. The flux and spectral index deduced for the compact source depend on the assumed size, with a range of 100 Jy and 500 Jy at 74 MHz. If the source is associated with the supernova explosion, it must have been traveling at least 5000 km/sec.

Keywords: ASTRONOMY

Type: Astronomical Journal; 79; Nov. 197

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10

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Aperture synthesis using orbiting telescopes (1985)

Resch, G. M. ; Tubbs, E. F. ; Linfield, R. P. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: A study was carried out to determine the feasibility, with current technology, of performing aperture synthesis using two telescopes orbiting the earth in coordinated orbits separated by approximately 10 m to 1 km. The objective was to determine whether there is a practical alternative to a very large, deployed, servo-controlled submillimeter telescope (i.e., the Large Deployable Reflector) for obtaining high-resolution submillimeter images of astronomical sources. It is found that suitable classes of orbits exist which can provide good UV coverage over the entire sky and the real-time correlation of wideband signals can be performed in orbit using current technology. The most difficult task appears to be the real-time determination of the orientation of the baseline vector in a stable coordinate system. A plausible scheme has been identified for the determination of an arbitrary direction to within 0.003 arcsec in an astrometric coordinate system. This scheme not only makes submillimeter interferometric image reconstruction possible but should also have numerous other applications.

Keywords: ASTRONOMY

Type: Radio Science (ISSN 0048-6604); 20; 1105-111

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