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Smoke optical depths - Magnitude, variability, and wavelength dependence (1988)

Russell, P. B. ; Pueschel, R. F. ; Ackerman, T. P. ; [et al.]

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Publication Date: 2011-08-19

Description: An airborne autotracking sun-photometer has been used to measure magnitudes, temporal/spatial variabilities, and the wavelength dependence of optical depths in the near-ultraviolet to near-infrared spectrum of smoke from two forest fires and one jet fuel fire and of background air. Jet fuel smoke optical depths were found to be generally less wavelength dependent than background aerosol optical depths. Forest fire smoke optical depths, however, showed a wide range of wavelength depedences, such as incidents of wavelength-independent extinction.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 93; 8388-840

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2

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Possible effects of the El Chichon volcanic cloud on the radiation budget of the northern tropics (1983)

Pollack, J. B. ; Ackerman, T. P.

In: Other Sources

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Publication Date: 2011-08-18

Description: A series of calculations with a one-dimensional, time-marching, radiative-convective model are performed to assess the impact of the El Chichon volcanic cloud on the radiation budget of the northern tropics during the 6-month period following the injection of volcanic material into the stratosphere. Extensive measurement of the cloud obtained from airborne, spacecraft, and ground platforms were used to define the model parameters and to test the predictions of the model. The El Chichon cloud is predicted to have caused an increase in planetary albedo of 10 percent, a decrease in total solar radiation of 2-3 percent at the ground on cloudless days, and an increase in temperature of 3.5 K at the 24-km (30-mb) level. These predictions are compatible with relevant observations, within their respective error bars.

Keywords: GEOPHYSICS

Type: Geophysical Research Letters (ISSN 0094-8276); 10; 1057-106

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3

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Absorption of visible radiation in atmosphere containing mixtures of absorbing and nonabsorbing particles (1981)

Ackerman, T. P. ; Toon, O. B.

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Publication Date: 2011-08-18

Description: The presence of a strongly absorbing material, tentatively identified as graphitic carbon, or 'soot', is indicated by measurements of single-scattering albedo of tropospheric aerosols. Although theoretical calculations based on models of the ways in which soot may mix with other aerosol materials yield the single-scattering albedo values of 0.6, accounted for by a minimum 20% soot by volume, in urban regions and 0.8, yielded by 1-5% soot by volume, in rural settings, it is found that these same values can be produced by similar amounts of the iron oxide magnetite. Magnetite is shown to be indistinguishable from soot by optical measurements performed on bulk samples, and calculation of various mixtures of soot indicate the difficulty of determining aerosol composition by optical scattering techniques.

Keywords: GEOPHYSICS

Type: Applied Optics; 20; Oct. 15

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4

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Analysis of Mount St. Helens ash from optical photoelectric photometry (1983)

Cardelli, J. A. ; Ackerman, T. P.

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Publication Date: 2011-08-18

Description: The optical properties of suspended dust particles from the eruption of Mt. St. Helens on July 23, 1980 are investigated using photoelectric observations of standard stars obtained on the 0.76-m telescope at the University of Washington 48 hours after the eruption. Measurements were made with five broad-band filters centered at 3910, 5085, 5480, 6330, and 8050 A on stars of varying color and over a wide range of air masses. Anomalous extinction effects due to the volcanic ash were detected, and a significant change in the wavelength-dependent extinction parameter during the course of the observations was established by statistical analysis. Mean particle size (a) and column density (N) are estimated using the Mie theory, assuming a log-normal particle-size distribution: a = 0.18 micron throughout; N = 1.02 x 10 to the 9th/sq cm before 7:00 UT and 2.33 x 10 to the 9th/sq cm after 8:30 UT on July 25, 1980. The extinction is attributed to low-level, slowly migrating ash, possibly combined with products of gas-to-particle conversion and coagulation.

Keywords: GEOPHYSICS

Type: Astronomical Society of the Pacific, Publications (ISSN 0004-6280); 95; July 198

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5

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Rapid calculation of radiative heating rates and photodissociation rates in inhomogeneous multiple scattering atmospheres (1989)

Mckay, C. P. ; Ackerman, T. P. ; Toon, Owen B. ; [et al.]

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Publication Date: 2011-08-19

Description: The solution of the generalized two-stream approximation for radiative transfer in homogeneous multiple scattering atmospheres is extended to vertically inhomogeneous atmospheres in a manner which is numerically stable and computationally efficient. It is shown that solar energy deposition rates, photolysis rates, and infrared cooling rates all may be calculated with the simple modifications of a single algorithm. The accuracy of the algorithm is generally better than 10 percent, so that other uncertainties, such as in absorption coefficients, may often dominate the error in calculation of the quantities of interest to atmospheric studies.

Keywords: GEOPHYSICS

Type: Journal of Geophysical Research (ISSN 0148-0227); 94; 16287-16

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6

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Equivalent absorption coefficients generated from frequency probability distributions (1983)

Ackerman, T. P.

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Publication Date: 2019-07-13

Description: A flexible and computationally accurate method of treating aerosol scattering in spectral regions in which gaseous absorption is important is described. In the method, line-by-line absorption coefficients are computed as a function of pressure, temperature, and absorber gas for the spectral region of interest. The coefficients are sorted into a probability distribution which is converted into a cumulative probability distribution, which in turn can be inverted due to its monotonic nature. The inverted distribution is a smooth curve giving the absorption coefficient as a function of an independent variable on the domain. The frequency integration of the radiative transfer equation can then be performed by a quadrature technique with values of the absorption coefficient determined from the inverted distribution curve. The method is illustrated by applying it to the 9.6 micron band of ozone.

Keywords: GEOPHYSICS

Type: Conference on Atmospheric Radiation; Oct 31, 1983 - Nov 04, 1983; Baltimore, MD

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