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1

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Interpolation problems in meteor radar analysis, part 7.6A (1984)

Avery, S. K. ; Tetenbaum, D.

In: CASI

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Publication Date: 2016-06-07

Description: Meteor echoes come from random points in the observation volume, and are irregularly spaced in time. This precludes the use of fast fourier transformations (FFT) techniques on the raw data to give the spectrum of waves that are present. One way around this obstacle is to restrict our interest to a particular class of waves, and fit a corresponding model to the raw data. It is assumed that there is no horizontal variation across the observation volume for tides, but in the vertical this is certainly not the case. If, in addition, we are interested in other types of waves which may be present and whose periods are unknown, then examining the raw line-of-sight velocities does not tell us how to modify the model, since the line-of-sight direction is not fixed. This is the motivation for interpolation. Interpolation takes a temporal series of line-of-sight velocities, and transforms it to a temporal series of wind velocities for each orthogonal direction. The velocities along a given direction can then be examined readily for any waves in addition to tides.

Keywords: GEOPHYSICS

Type: International Council of Scientific Unions Middle Atmosphere Program: Handbook for MAP. Vol. 14; p 294-296

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2

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The meteor radar as a tool for upper atmosphere research (1989)

Avery, S. K.

In: CASI

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Publication Date: 2013-08-31

Description: Meteor radar provide measurements of the upper mesosphere and lower thermosphere neutral wind field by using the reflection of electromagnetic waves from meteor trails. These radars are relatively inexpensive and provide an excellent means of monitoring the mean winds and tides in the 80 to 100 km region. Recently new techniques were developed to detect meteor echoes from other ground based radar systems operating in the HF/VHF frequency range. The meteor echo information augments the data that are routinely collected by these radars. These new techniques are discussed.

Keywords: GEOPHYSICS

Type: International Council of Scientific Unions, Middle Atmosphere Program. Handbook for MAP, volume 27; p 160-172

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3

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Mean winds of the upper middle atmosphere (60-110 km): A global distribution from radar systems (M.F., METEOR, VHF) (1985)

Meek, C. E. ; Fellous, J. L. ; Balsley, B. B. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Since the development of the last CIRA in 1972, the number of radars providing winds in the upper middle atmosphere has increased significantly. These systems fill the data gap between 60 km and 110 km. The radars include medium frequency (MF) radars or partial reflection systems giving data from 60/70 to 100/110 km; meteor radars, 80 to 110 km, and M.S.T. radars operating as meteor radars. Data from 12 locations are shown, which represent a good Northern Hemispheric (NH) North American chain, an Oceanian chain which is mainly in the Southern Hemisphere (SH), and some Western Europe data. Generally tidal oscillations have been removed from days or groups of days, and the remaining mean winds and longer period oscillations plotted as height-time contours. Composite cross sections from the years 1978 to 1982 were formed where possible so that only the major temporal features remain.

Keywords: GEOPHYSICS

Type: International Council of Scientific Unions Handbook for MAP, Vol. 18; 4 p

Format: text

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4

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Meteor detection on ST (MST) radars (1987)

Avery, S. K.

In: CASI

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Publication Date: 2013-08-31

Description: The ability to detect radar echoes from backscatter due to turbulent irregularities of the radio refractive index in the clear atmosphere has lead to an increasing number of established mesosphere - stratosphere - troposphere (MST or ST) radars. Humidity and temperature variations are responsible for the echo in the troposphere and stratosphere and turbulence acting on electron density gradients provides the echo in the mesosphere. The MST radar and its smaller version, the ST radar, are pulsed Doppler radars operating in the VHF - UHF frequency range. These echoes can be used to determine upper atmosphere winds at little extra cost to the ST radar configuration. In addition, the meteor echoes can supplement mesospheric data from an MST radar. The detection techniques required on the ST radar for delineating meteor echo returns are described.

Keywords: ASTROPHYSICS

Type: International Council of Scientific Unions, Middle Atmosphere Program. Handbook for MAP, Volume 25; p 361-375

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5

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Data base management: MSTRAC (keynote paper), part 8 (1984)

Balsley, B. B. ; Avery, S. K.

In: CASI

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Publication Date: 2016-06-07

Description: Technical Aspects of MST radars were discussed. The name of the group is MST Radar Coordination (MSTRAC). The geophysical parameters to be included in the sample data tapes were determined. It was suggested that MSTRAC compile a catalog of existing data at each of the facilities. It is found that: (1) there is a community of interested users for MST data; (2) the initial responses from observatories indicates that interest in MSTRAC is not overwhelming, probably because of time involved; and (3) the program needs reassessment.

Keywords: ADMINISTRATION AND MANAGEMENT

Type: International Council of Scientific Unions Middle Atmosphere Program: Handbook for MAP. Vol. 14; p 300-301

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6

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Meteorological and dynamical requirements for MST radar networks: Waves (1983)

Avery, S. K.

In: CASI

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Publication Date: 2016-06-07

Description: Studies of wave motions using the MST radar have concentrated on single station time series analyses of gravity waves and tides. Since these radars collect high time resolution data they have the potential to become a significant tool for mesoscale research. In addition, radars are operated almost continuously unattended and, consequently, data sets are available for analyzing longer period wave motions such as tides and planetary scale waves. Although there is much to learn from single station data, the possibilities of new knowledge from a network of radars is exciting. The scales of wave motions in the atmosphere cover a broad range. Consequently the choice of a radar network depends to a large extent on the types of wave motions that are studied. There are many outstanding research problems that would benefit from observations from a MST radar network. In particular, there is a strong need for measurements of gravity wave parameters and equatorial wave motions. Some of the current problems in wave dynamics are discussed.

Keywords: GEOPHYSICS

Type: International Council of Scientific Unions Middle Atmosphere Program, Vol. 9; p 30-33

Format: application/pdf

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7

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Techniques for studying gravity waves and turbulence: Horizontal, vertical and temporal resolution needed (1983)

Carter, D. A. ; Avery, S. K.

In: CASI

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Publication Date: 2016-06-07

Description: One of the most important atmospheric measurements that is needed is a measure of the gravity-wave spectrum. The MST radar has been investigated as means to measure the temporal resolution required to determine gravity-wave oscillations. The required vertical and horizontal resolution is dependent on the particular part of the gravity wave spectrum that is analyzed. Horizontal spacing is also discussed.

Keywords: GEOPHYSICS

Type: International Council of Scientific Unions Middle Atmosphere Program, Vol. 9; p 247-249

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8

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Mean Winds of the Upper Middle Atmosphere (60-110 Km): a Global Distribution from Radar Systems (MF, Meteor, VHF) (1985)

Elford, W. G. ; Meek, C. E. ; Roper, R. G. ; [et al.]

In: CASI

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Publication Date: 2014-09-23

Description: During the last decade a large number of radars have been developed, which have produced substantial quantities of tidally corrected mean winds data in the upper middle atmosphere. The distribution of the radars is not global, but many areas are well covered. Zonal and meridional wind height-time cross sections from 60 to 80 km (MF/meteor radar) to approx. 110 km were preared for the last 5 to 6 years. They are compared with cross sections from CIRA 1972 for zonal winds, and GROVES (1969) for meridional winds. It is shown that while CIRA 1972 is still a useful model for many purposes, significant differences exist between it and the new radar data. The latter demonstrate important seasonal, latitudinal, longitudinal and hemispheric variations. The new meridional cross sections are of great value. The common features with GROVES (1969) are the equatorward cells in summer near 85 km; however, their strength (approx. 10 m/s) and size are less. Systematic and somewhat different variations emerge at (higher 52 N) and lower (35 to 44 deg) latitudes.

Keywords: GEOPHYSICS

Type: International Council of Scientific Unions Middle Atmosphere Program. Handbook for MAP, Vol. 16; p 239-268

Format: text

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9

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Data Descriptions and Vertical Structure Plots for Mean, Diurnal, and Semidurnal Components of Eastward and Northward (ordered by Latitude). Mean Winds and Tides over Poker Flat, Alaska (65 Deg N, 147 Deg W), During November 1981 (1985)

Avery, S. K.

In: CASI

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Publication Date: 2014-10-10

Description: The mean zonal and meridional winds and the amplitude and phase structures for the tidal harmonics for the month of November, 1981 are given. The mean winds are weak westerlies and weak southerlies. The westerlies are approximately 10 ms (-1) lower than those during November 1980 and 1982. The diurnal amplitudes are small in both the zonal and meridional wind components. The diurnal phase structures are characteristic of a propagating wave having a ertical wavelength of approximately 50 km. The semidiurnal tidal harmonic amplitudes are slightly larger than the diurnal amplitudes. However, the phase structures are different for the zonal and meridional components. The meridional phase structure appears evanescent. The zonal phase structure has a phase reversal at 88 km with downward phase progression below that level and upward phase progression above that level. The vertical wavelength is roximately 12 km. This short vertical wavelength occurs during other months of the year but longer wavelengths are more common.

Keywords: GEOPHYSICS

Type: International Council of Scientific Unions Middle Atmosphere Program. Handbook for MAP, Vol. 17; p 44-45

Format: text

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10

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Dynamics of the nighttime sodium layer over Urbana, Illinois (1981)

Shelton, J. D. ; Sechrist, C. F. ; Avery, S. K. ; [et al.]

In: Other Sources

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Publication Date: 2019-01-25

Keywords: GEOPHYSICS

Type: Middle Atmosphere Program. Handbook for MAP. Volume 2: (NASA-CR-175509); p 462-467

Format: text

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