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High-speed correction factor to the O(+)-O resonance charge exchange collision frequency (1995)

Omidvar, K. ; Pesnell, W. D.

In: Other Sources

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Publication Date: 2011-08-24

Description: The high-speed correction factor to the O(+)-O collision frequency, resulting from drift velocities between ions and neutrals, is calculated by solving the integral expression in this factor both numerically and analytically. Although the analytic solution is valid for either small or large drift velocities between ions and neutrals, for temperatures of interest and all drift velocities considered, agreement is found between analytic and detailed numerical integration results within less than 1% error. Let T(sub r) designate the average of the ion and neutral temperatures in K, and u = nu(sub d)/alpha, where nu(sub d) is the relative drift velocity in cm/s, and alpha = 4.56 x 10(exp 3) square root of T(sub r) cm/s is the thermal velocity of the O(+)-O system. Then, as u ranges from 0 to 2, the correction factor multiplying the collision frequency increases monotonically from 1 to about 1.5. An interesting result emerging from this calculation is that the correction factor for temperatures of aeronomical interest is to a good approximation independent of the temperature, depending only on the scaled velocity u.

Keywords: GEOPHYSICS

Type: Annales Geophysicae (ISSN 0992-7689); 13; 3; p. 253-255

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2

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Momentum transfer collision frequency of O(+)-O (1993)

Hoegy, Walter R. ; Omidvar, Kazem ; Pesnell, W. D.

In: Other Sources

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Publication Date: 2011-08-24

Description: The interaction of the thermosphere and ionosphere is largely governed by collisions between ions and neutral particles. On Venus and the Earth, O(+) is a dominant ion, and atomic O dominates throughout much of the thermosphere; therefore an accurate O(+)-O cross section is an important prerequisite for understanding the dynamics of planetary upper atmospheres. The cross section and momentum transfer collision frequency are calculated with a quantum mechanical code which includes resonance charge exchange, polarization, and charge-quadrupole effects. Our results agree well with earlier calculations of Stubbe (1968) and Stallcop et al. (1991).

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Geophysical Research Letters (ISSN 0094-8276); 20; 13; p. 1343-1346.

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3

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How active was solar cycle 22? (1993)

Rottman, G. J. ; Woods, T. N. ; Pesnell, W. D. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: Solar EUV observations from the Langmuir probe on Pioneer Venus Orbiter suggest that at EUV wavelengths solar cycle 22 was more active than solar cycle 21. The Langmuir probe, acting as a photodiode, measured the integrated solar EUV flux over a 13 1/2 year period from January 1979 to June 1992, the longest continuous solar EUV measurement. The Ipe EUV flux correlated very well with the SME measurement of L-alpha during the lifetime of SME and with the UARS SOLSTICE L-alpha from October 1991 to June 1992 when the Ipe measurement ceased. Starting with the peak of solar cycle 21, there was good general agreement of Ipe EUV with the 10.7 cm, Ca K, and He 10830 solar indices, until the onset of solar cycle 22. From 1989 to the start of 1992, the 10.7 cm flux exhibited a broad maximum consisting of two peaks of nearly equal magnitude, whereas Ipe EUV exhibited a strong increase during this time period making the second peak significantly higher than the first. The only solar index that exhibits the same increase in solar activity as Ipe EUV and L-alpha during the cycle 22 peak is the total magnetic flux. The case for high activity during this peak is also supported by the presence of very high solar flare intensity.

Keywords: SOLAR PHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 20; 13; p. 1335-1338.

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4

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Dynamical interactions between the middle atmosphere and thermosphere (1992)

Mayr, H. G. ; Harris, I. ; Pesnell, W. D.

In: Other Sources

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Publication Date: 2011-08-24

Description: Based on modeling some interactions between the middle atmosphere and thermosphere are presented. The interactions studied include the thermospheric circulations driven by radiative and auroral heating affecting the O concentration and temperature of the upper mesosphere through the exchange of chemical energy. Considering Kellog's mechanism, an interaction between the mesosphere and thermosphere that is driven by Joule heating is discussed.

Keywords: GEOPHYSICS

Type: Advances in Space Research (ISSN 0273-1177); 12; 10, O

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Thermospheric gravity waves - Observations and interpretation using the transfer function model (TFM) (1990)

Harris, I. ; Mayr, H. G. ; Varosi, F. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: This paper presents some numerical experiments performed with the TFM to study the various wave components excited in the auroral regions that propagate through the thermosphere and lower atmosphere, and to demonstrate the properties of realistic source geometries. The model is applied to the interpretation of satellite measurements, and gravity waves seen in the thermosphere of Venus are discussed. Gravity waves are prominent in the terrestrial thermosphere polar region and can be excited by perturbations in Joule heating and Lorentz force due to magnetospheric processes. Observations from the Dynamics Explorer-2 satellite are used to illustrate the complexity of the phenomenon and to review the TFM that is utilized.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Space Science Reviews (ISSN 0038-6308); 54; 297-375

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Meteoric Ions in Planetary Ionospheres (2001)

Vondrak, Richard R. ; Grebowsky, Joseph M. ; Pesnell, W. D.

In: CASI

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Publication Date: 2013-08-29

Description: Solar system debris, in the form of meteoroids, impacts every planet. The flux, relative composition and speed of the debris at each planet depends on the planet's size and location in the solar system. Ablation in the atmosphere evaporates the meteoric material and leaves behind metal atoms. During the ablation process metallic ions are formed by impact ionization. For small inner solar system planets, including Earth, this source of ionization is typically small compared to either photoionization or charge exchange with ambient molecular ions. For Earth, the atmosphere above the main deposition region absorbs the spectral lines capable of ionizing the major metallic atoms (Fe and Mg) so that charge exchange with ambient ions is the dominant source. Within the carbon dioxide atmosphere of Mars (and possibly Venus), photoionization is important in determining the ion density. For a heavy planet like Jupiter, far from the sun, impact ionization of ablated neutral atoms by impacts with molecules becomes a prominent source of ionization due to the gravitational acceleration to high incident speeds. We will describe the processes and location and extent of metal ion layers for Mars, Earth and Jupiter, concentrating on flagging the uncertainties in the models at the present time. This is an important problem, because low altitude ionosphere layers for the planets, particularly at night, probably consist predominantly of metallic ions. Comparisons with Earth will be used to illustrate the differing processes in the three planetary atmospheres.

Keywords: Lunar and Planetary Science and Exploration

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The Influence of Particle Charge on Heterogeneous Reaction Rate Coefficients (2000)

Aikin, A. C. ; Pesnell, W. D.

In: Other Sources

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Publication Date: 2019-07-17

Description: The effects of particle charge on heterogeneous reaction rates are presented. Many atmospheric particles, whether liquid or solid are charged. This surface charge causes a redistribution of charge within a liquid particle and as a consequence a perturbation in the gaseous uptake coefficient. The amount of perturbation is proportional to the external potential and the square of the ratio of debye length in the liquid to the particle radius. Previous modeling has shown how surface charge affects the uptake coefficient of charged aerosols. This effect is now included in the heterogeneous reaction rate of an aerosol ensemble. Extension of this analysis to ice particles will be discussed and examples presented.

Keywords: Environment Pollution

Type: May 30, 2000 - Jun 03, 2000; Washington, DC; United States

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8

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Accuracy of the O(+)-O collision cross-section deduced from ionosphere-thermosphere observations (1994)

Hines, C. O. ; Hoegy, W. R. ; Reddy, C. A. ; [et al.]

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Publication Date: 2019-07-13

Description: Aeronomic observations applied to the empirical derivation of the ion-neutral collision cross-section -- a basic parameter governing the mutual interaction between the neutral and plasma components in the Earth's upper atmosphere -- have given values considerably larger than those derived from theory. The empirical scheme uses the plasma velocities obtained with the Incoherent Scatter Radar and the neutral winds obtained with the Fabry-Perot Interferometer. It is shown here that such an analysis overestimates the collision cross-section due to the effects of errors in the observables. The effect may be sufficiently large to bring about agreement with theory, and calls for a re-analysis of the aeronomic data using methods which minimize the bias caused by measurement errors.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 21; 22; p. 2429-2432

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9

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Destruction of Sun-Grazing Comet C-2011 N3 (SOHO) Within the Low Solar Corona (2012)

Brown, J. C. ; Liu, W. ; Hudson, H. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Observations of comets in Sun-grazing orbits that survive solar insolation long enough to penetrate into the Suns inner corona provide information on the solar atmosphere and magnetic field as well as on the makeup of the comet. On 6 July 2011, the Solar Dynamics Observatory (SDO) observed the demise of comet C2011 N3 (SOHO) within the low solar corona in five wavelength bands in the extreme ultraviolet (EUV). The comet penetrated to within 0.146 solarradius (100,000 kilometers) of the solar surface before its EUV signal disappeared.

Keywords: Solar Physics

Type: GSFC-E-DAA-TN9334 , SCIENCE (ISSN 0036-8075); 335; 6066; 324-328

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Recent Studies of the Behavior of the Sun's White-Light Corona Over Time (2008)

Young, D. E. ; Pesnell, W. D. ; Eddy, J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: Predictions of upcoming solar cycles are often related to the nature and dynamics of the Sun's polar magnetic field and its influence on the corona. For the past 30 years we have a more-or-less continuous record of the Sun's white-light corona from groundbased and spacebased coronagraphs. Over that interval, the large scale features of the corona have varied in what we now consider a 'predictable' fashion--complex, showing multiple streamers at all latitudes during solar activity maximum; and a simple dipolar shape aligned with the rotational pole during solar minimum. Over the past three decades the white-light corona appears to be a better indicator of 'true' solar minimum than sunspot number since sunspots disappear for months (even years) at solar minimum. Since almost all predictions of the timing of the next solar maximum depend on the timing of solar minimum, the white-light corona is a potentially important observational discriminator for future predictors. In this contribution we describe recent work quantifying the large-scale appearance of the Sun's corona to correlate it with the sunspot record, especially around solar minimum. These three decades can be expanded with the HAO archive of eclipse photographs which, although sparse compared to the coronagraphic coverage, extends back to 1869. A more extensive understanding of this proxy would give researchers confidence in using the white-light corona as an indicator of solar minimum conditions.

Keywords: Solar Physics

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