R. P. Lowe scite author profile

The S transform, which is introduced in this correspondence, is an extension of the ideas of the continuous wavelet transform (CWT), and is based on a moving and scalable localizing Gaussian window. It is shown here to have some desirable characteristics that are absent in the continuous wavelet transform. The S transform is unique in that it provides frequency-dependent resolution while maintaining a direct relationship with the Fourier spectrum. These advantages of the S transform are due to the fact that the modulating sinusoids are £xed with respect to the time axis, whereas the localizing scalable Gaussian window dilates and translates.

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Review of mesospheric temperature trends

Beig

Keckhut

Lowe

et al. 2003

Reviews of Geophysics

240

281

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International audienceIn recent times it has become increasingly clear thatreleases of trace gases from human activity have a potentialfor causing change in the upper atmosphere. However,our knowledge of systematic changes and trends inthe temperature of the mesosphere and lower thermosphereis relatively limited compared to the Earths loweratmosphere, and not much effort has been made to synthesizethese results so far. In this article, a comprehensivereview of long-term trends in the temperature of the regionfrom 50 to 100 km is made on the basis of the availableup-to-date understanding of measurements and model calculations.An objective evaluation of the available datasets is attempted, and important uncertainly factors arediscussed. Some natural variability factors, which arelikely to play a role in modulating temperature trends,are also briefly touched upon. There are a growing numberof experimental results centered on, or consistent with,zero temperature trend in the mesopause region (80–100km). The most reliable data sets show no significant trendbut an uncertainty of at least 2 K/decade. On the otherhand, a majority of studies indicate negative trends inthe lower and middle mesosphere with an amplitude ofa few degrees (2–3 K) per decade. In tropical latitudesthe cooling trend increases in the upper mesosphere.The most recent general circulation models indicateincreased cooling closer to both poles in the middlemesosphere and a decrease in cooling toward the summerpole in the upper mesosphere. Quantitatively, thesimulated cooling trend in the middle mesosphere producedonly by CO₂ increase is usually below the observedlevel. However, including other greenhouse gasesand taking into account a “thermal shrinking” of theupper atmosphere result in a cooling of a few degreesper decade. This is close to the lower limit of the observednonzero trends. In the mesopause region, recentmodel simulations produce trends, usually below 1 K/decade,that appear to be consistent with most observationsin this regio

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WINDII, the wind imaging interferometer on the Upper Atmosphere Research Satellite

Shepherd¹,

Thuillier²,

Gault³

et al. 1993

J. Geophys. Res.

438

285

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The WIND imaging interferometer (WINDII) was launched on the Upper Atmosphere Research Satellite (UARS) on September 12, 1991. This joint project, sponsored by the Canadian Space Agency and the French Centre National d'Etudes Spatiales, in collaboration with NASA, has the responsibility of measuring the global wind pattern at the top of the altitude range covered by UARS. WINDII measures wind, temperature, and emission rate over the altitude range 80 to 300 km by using the visible region airglow emission from these altitudes as a target and employing optical Doppler interferometry to measure the small wavelength shifts of the narrow atomic and molecular airglow emission lines induced by the bulk velocity of the atmosphere carrying the emitting species. The instrument used is an all‐glass field‐widened achromatically and thermally compensated phase‐stepping Michelson interferometer, along with a bare CCD detector that images the airglow limb through the interferometer. A sequence of phase‐stepped images is processed to derive the wind velocity for two orthogonal view directions, yielding the vector horizontal wind. The process of data analysis, including the inversion of apparent quantities to vertical profiles, is described.

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Spectrometric and imaging measurements of a spectacular gravity wave event observed during the ALOHA‐93 Campaign

Taylor

Turnbull

Lowe

1995

Geophysical Research Letters

127

178

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imaging measurements of a spectacular gravity wave event observed during the ALOHA-93 campaign, Geophys. Res. Lett., 22, 2849Lett., 22, , 1995 wave event was observed. This disturbance appeared as a sharp "front" followed by several conspicuous wave crests which progressed rapidly through the imager's field of view (180ø). As the front passed overhead the interferometer detected a sudden jump in both the OH intensity (>50%) and its rotational temperature (~20K) with the temperature increase leading the intensity by almost 15 min. At the same time the imager registered a sharp decrease in the OI(557.7 nm) emission intensity. A description of this remarkable event follows. GEOPHYSICAL RESEARCH LETTERS

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New hydroxyl transition probabilities and their importance in airglow studies

Turnbull

Lowe

1989

Planetary and Space Science

117

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R. P. Lowe

Localization of the complex spectrum: the S transform

Review of mesospheric temperature trends

WINDII, the wind imaging interferometer on the Upper Atmosphere Research Satellite

Spectrometric and imaging measurements of a spectacular gravity wave event observed during the ALOHA‐93 Campaign

New hydroxyl transition probabilities and their importance in airglow studies

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