J. R. Thieman’s research while affiliated with Tel Aviv University and other places

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Publications (15)


Synoptic observations of Jupiter's radio emissions - Average statistical properties observed by Voyager
  • Article

October 1981

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16 Reads

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64 Citations

Journal of Geophysical Research Atmospheres

J. K. Alexander

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T. D. Carr

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J. R. Thieman

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[...]

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A. C. Riddle

Observations of Jupiter's low-frequency radio emissions collected over one-month intervals before and after each Voyager encounter are analyzed to provide a synoptic view of the average statistical properties of the emissions. Compilations of occurrence probability, average power flux density, and average sense of circular polarization are given as a function of central meridian longitude, phase of Io, and frequency. The results are then compared with ground-based observations. The necessary geometric conditions and preferred polarization sense for Io-related decametric emission observed by Voyager from above both the dayside and nightside hemispheres are found to be basically the same as those observed in earth-based studies.


The formation of arcs in the dynamic spectra of Jovian decameter bursts
  • Article
  • Full-text available

October 1981

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51 Reads

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47 Citations

Journal of Geophysical Research Atmospheres

A model is presented that accounts for several features of the dynamic spectral arcs observed at decameter wavelengths by the planetary radio astronomy experiment on Voyagers 1 and 2. It is shown that refraction of an extraordinary mode wave initially excited and nearly orthogonal to the local magnetic field is significantly influenced by the local plasma density. The source of the radiation is on the L = 6 flux, and the emission cone angle of the sheet is chosen to vary with frequency so that it is relatively small at both high and low frequencies while about 80 deg at intermediate frequencies. This functional dependence of cone angle on frequency appears to be consistent with estimates of refraction of the ordinary mode in a source region where the electron density is greater than a few hundred per cu cm.

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Arcs in Saturn's radio spectra

September 1981

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11 Reads

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8 Citations

Nature

Arcs appearing in the dynamic spectra of Saturn radio emission have been modelled using the same techniques as applied to Jovian arcs. Their properties suggest a source region several tenths of a Saturn radius above the cloud tops in the late morning local time sector.


Planetary Radio Astronomy Observations from Voyager 2 Near Jupiter

December 1979

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22 Reads

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87 Citations

Science

The Voyager 2 Planetary Radio Astronomy experiment to Jupiter has confirmed and extended to higher zenomagnetic latitudes results from the identical experiment carried by Voyager 1. The kilometric emissions discovered by Voyager 1 often extended to 1 megahertz or higher on Voyager 2 and often consisted of negatively or, less frequently, positively drifting narrowband bursts. On the basis of tentative identification of plasma wave emissions similar to those detected by Voyager 1, the plasma torus associated with Io appeared somewhat denser to Voyager 2 than it did to Voyager 1. We report here on quasiperiodic sinusoidal or impulsive bursts in the broadcast band range of wavelengths (800 to 1800 kilohertz). A Faraday effect appears at decametric frequencies, which probably results from propagation of the radiation near its sources on Jupiter. Finally, we discuss the occurrence of decametric emission in homologous arc families.


Latitudinal beaming of Jupiter's low frequency radio emissions

October 1979

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9 Reads

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36 Citations

Journal of Geophysical Research Atmospheres

Observations of Jupiter's radio emissions from Jovigraphic latitudes greater than 3.3 deg are reported. The measurements were obtained from the Voyager 2 spacecraft at declinations up to 6.5 deg, and when these results are compared with simultaneous observations from Voyager 1 near the ecliptic plane (at a Jovigraphic latitude of about 3 deg), they indicate that the latitudinal-beaming effects persist and may even become stronger with higher latitudes. The results were combined with earlier low-frequency measurements from periods with De as low as -3 deg in order to show the beaming effects the occurrence of the emission over a full 10 deg range of altitude. The results of observations at frequencies near 1 MHz are also discussed, which were obtained from Voyager 1 and 2 in 1978, Rae 1 in 1969, and Imp 6 in 1971-1972. The implications of the new results for models of Jupiter's radio-emission beam pattern are considered.


A catalog of jovian decameter-wave radio observations from 1957 - 1978

September 1979

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10 Reads

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5 Citations

Data from over 200,000 hours of observation of Jupiter radio emission in the decameter-wavelength band, were collected from 13 observing sites and are available on magnetic tape. Observations were made at 14 fixed frequencies from 5 to 30 MHz. The characteristics of the tape recording technique and the data format are described. The combination of overlapping data from observing sites scattered world-wide lessens the effect of the earth's daily interruption of the ground-received signal. A power spectral analysis of the data shows no evidence of periodicities within the data other than the well-known influences of Jupiter, Io, and the earth. The dependence of the occurrence probability of emission on System 3 longitude and the phase of Io varies smoothly with frequency down to 15 MHz and then appears quite different at 10 MHz. The morphology of the radio sources is both complex and stable for periods of at least months and probably much longer.


Decameter: Wave radio observations of Jupiter during the 1970 apparition

September 1979

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6 Reads

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3 Citations

Observations of Jupiter's sporadic decameter wavelength radio emissions were obtained between November 1978 and March 1979. A multistation, global network of monitoring instruments were utilized in order to obtain nearly continuous, synoptic observations of the planet. Observations were obtained daily at frequencies of 16.7 and 22.2 MHz using five element Yagi antennas at each end of a two element interferometer.


Voyager spacecraft radio observations of Jupiter - Initial cruise results

July 1979

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10 Reads

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21 Citations

Low frequency (below 1326 kHz) observations of Jupiter obtained from November, 1977 through June, 1978 by the radio astronomy receivers carried by the two Voyager spacecraft are reported and compared with a large body of higher-frequency ground-based observations. Although the morphology of hectometric wavelength (HOM) emissions strongly resembles that of decametric (DAM) wavelength radio noise, they display opposite polarization. DAM emissions are strongly modulated by Io, whereas HOM emissions exhibit little or no influence from any satellite and appear to be modulated by the rotation phase of the planet. Several single-source models could possibly account for these results, including a model assuming emission at two well-separated frequencies above and below the local electron plasma frequency and the model proposed by Barbosa (1976) in which electrostatic waves at twice the upper hybrid frequency couple to both the ordinary and extraordinary electromagnetic modes. However, neither of these is entirely satisfactory.


Voyager 1 Planetary Radio Astronomy Observations Near Jupiter

July 1979

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22 Reads

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235 Citations

Science

We report results from the first low-frequency radio receiver to be transported into the Jupiter magnetosphere. We obtained dramatic new information, both because Voyager was near or in Jupiter's radio emission sources and also because it was outside the relatively dense solar wind plasma of the inner solar system. Extensive radio spectral arcs, from above 30 to about 1 megahertz, occurred in patterns correlated with planetary longitude. A newly discovered kilometric wavelength radio source may relate to the plasma torus near Io's orbit. In situ wave resonances near closest approach define an electron density profile along the Voyager trajectory and form the basis for a map of the torus. Detailed studies are in progress and are out-lined briefly.


A beaming model of the Io-independent Jovian decameter radiation based on multipole models of the Jovian magnetic field

June 1979

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24 Reads

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15 Citations

The Astrophysical Journal

A geometrical model is presented in which the apparent source locations of the Io-independent decameter radiation are computed. The calculations assume that the radiation is produced by stably trapped electrons radiating near the local electron gyrofrequency and that the emission is then beamed onto a conical surface. The maximum occurrence probability of noise storms is associated with regions in the Jovian magnetosphere where the axis of the emission cone is most inclined toward the Jovian equatorial plane. The calculations utilize and compare two of the octopole spherical harmonic expansions of the Jovian magnetic field constructed from data accumulated by the fluxgate and vector helium magnetometers on board Pioneer 11.


Citations (9)


... The Io-controlled Jovian emission regions are designated Io-A and Io-B for the primarily right hand circular (RHC) emission sources in the northern hemisphere while the predominantly left hand circular (LHC) sources in the southern hemisphere are designated Io-C and Io-D. The handedness of the polarized emission is set by the direction of propagation of the emission relative to the local magnetic field direction as seen by the observer [Zarka, 1988;Thieman & Smith, 1979]. These Io-related emission regions are defined Taylor et al. [2012] except NDA from . ...

Reference:

Probing Jovian Decametric Emission with the Long Wavelength Array Station 1
Detailed geometrical modeling of Jupiter's Io-related decametric radiation
  • Citing Article
  • January 1979

Journal of Geophysical Research Atmospheres

... [11] Recently, Imai et al. [2008], using all the data during Cassini flyby, first recognized the "V-shape" pattern within non-Io-DAM, which was originally suggested by Thieman and Smith [1978] and Alexander et al. [1981], in the frequency versus longitude plot between 9 MHz and 16 MHz. Moreover, there are two enhanced peaks at 160°and 240°CML at 16 MHz. ...

Frequency and time dependence of the Jovian decametric radio emissions - A nineteen-year high-resolution study
  • Citing Article
  • August 1978

Journal of Geophysical Research Atmospheres

... It can first be indirectly inferred from modelling studies. Thieman et al. [1981] for instance used an ad hoc model of hollow conical sheet, using θ(f ) = 75−85 • for radio sources along field lines of apex ≤ 5 radii, to reproduce the curved kilometric arcs regularly observed in Voyager/PRA dynamic spectra . Lamy et al. [2008bLamy et al. [ , 2008c quantitatively simulated SKR visibility effects frequently observed in Cassini/RPWS dynamic spectra, such as double RH/LH polarized arcs and signal extinctions close to the planet or at latitudes beyond 60 • in both hemispheres, assuming a CMI-driven emission angle, radio sources colocated with the main auroral oval (field line apex around 12-15 radii) and straight line propagation. ...

Arcs in Saturn's radio spectra
  • Citing Article
  • September 1981

Nature

... Dynamic spectra from ground-based and Voyager observations have revealed that the patterns of Jovian decametric emission on the time-frequency plane can be resolved into families of arcs somewhat like groups of nested opening or closing parentheses. Several authors have proposed models in which each spectral arc geometrically results from the rotation of families of hollow cone beams of different frequencies threaded by an activated flux tube [Goldstein and Thieman, 1981;Leblanc, 1981;Pearce, 1981]. This suggests that the spectral arcs of Io-A and Io-B may be approximated by a large number of thin conical surface beams, the apexes of which are distributed over a limited range of longitudes, and the axes of which are parallel to the magnetic field. ...

The formation of arcs in the dynamic spectra of Jovian decameter bursts

Journal of Geophysical Research Atmospheres

... [11] Recently, Imai et al. [2008], using all the data during Cassini flyby, first recognized the "V-shape" pattern within non-Io-DAM, which was originally suggested by Thieman and Smith [1978] and Alexander et al. [1981], in the frequency versus longitude plot between 9 MHz and 16 MHz. Moreover, there are two enhanced peaks at 160°and 240°CML at 16 MHz. ...

Synoptic observations of Jupiter's radio emissions - Average statistical properties observed by Voyager
  • Citing Article
  • October 1981

Journal of Geophysical Research Atmospheres

... Only the decameter emissions are accessible to ground-based observations due to the Earth's ionospheric cutoff at 10 MHz. But observations from the two Voyager spacecraft extended Jupiter's radio spectrum to the hectometer and kilometer wavelength ranges (Warwick et al., 1979a(Warwick et al., , 1979b. Two components were discovered in the kilometer range: a broadband (∼10 kHz to ∼1 MHz) sporadic emission called bKOM , and a narrowband smoother one restricted to frequencies around 100 kHz called narrowband kilometric radiation (nKOM) . ...

Planetary Radio Astronomy Observations from Voyager 2 Near Jupiter
  • Citing Article
  • December 1979

Science

... Only the decameter emissions are accessible to ground-based observations due to the Earth's ionospheric cutoff at 10 MHz. But observations from the two Voyager spacecraft extended Jupiter's radio spectrum to the hectometer and kilometer wavelength ranges (Warwick et al., 1979a(Warwick et al., , 1979b. Two components were discovered in the kilometer range: a broadband (∼10 kHz to ∼1 MHz) sporadic emission called bKOM , and a narrowband smoother one restricted to frequencies around 100 kHz called narrowband kilometric radiation (nKOM) . ...

Voyager 1 Planetary Radio Astronomy Observations Near Jupiter
  • Citing Article
  • July 1979

Science

... Is it possible that the major energy source for Io-related-DAM involves mirrored electrons so that only a small number of particles precipitate into the Jovian atmosphere and these are undetectable using present imaging methods? Certainly, mirrored electrons are the likely source of non-Io DAM emission [Goldstein et al., 1979]. This possibility can, in principle, be tested by examining the highest frequencies reached in the Io-related radio sources and comparing these with the maximum predicted mirror frequency expected from magnetic field models. ...

A beaming model of the Io-independent Jovian decameter radiation based on multipole models of the Jovian magnetic field

The Astrophysical Journal

... Concerning the HOM component in Figures 3a and 3b, its apparent variations in latitude may be accounted for by the latitudinal beam model [Alexander et al., 1979], in which the HOM emission is confined in a narrow magnetic latitude range while the spacecraft moves up and down in magnetic latitude through Jupiter's rotation. According to the Cassini observations during the Jupiter flyby, the magnetic latitude region filled with the HOM beam is localized between −7 ∘ and +6 ∘ at 0.3 to 3 MHz [Imai et al., 2011b[Imai et al., , 2015. ...

Latitudinal beaming of Jupiter's low frequency radio emissions
  • Citing Article
  • October 1979

Journal of Geophysical Research Atmospheres