Computer Science
Scientific paper
Sep 2000
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2000phdt........28h&link_type=abstract
Thesis (PhD). MASSACHUSETTS INSTITUTE OF TECHNOLOGY, Source DAI-B 61/03, p. 1453, Sep 2000, pages.
Computer Science
Scientific paper
Observations of the vertical structure of stratospheric planetary waves reveal a large variety of structures, and a variability both on seasonal and on daily time scales. The extent to which linear wave theory explains these structures and their time evolution at a given time or season is not well known. The sensitivity of linear wave models to details of the basic state and model damping, makes it hard to determine why the observations deviate from modeled waves in any given case. In addition, the ability of the observations to resolve the vertical structure of planetary waves is not obvious, given the low vertical resolution of satellite retrievals. The goal of this thesis is to understand the sources of observed variability of vertical wave structure, in particular, to determine whether linear wave theory can explain this variability, and whether the observations are capable of resolving it. We start by testing the ability of satellite retrievals to resolve the vertical structure of the waves. We also identify dynamic situations in the real atmosphere which are more prone to retrieval errors. These are mostly relevant to summer or to the breakup of the polar vortex, when the existence of critical surfaces may cause the waves to have sharp features. The next part consists of understanding the relation between vertical wave structure and the wave propagation characteristics of the basic state in a series of linear wave models. A large variety of vertical wave structures is found, similar to observed. This variety is due to the existence of stratospheric turning points. We extend these results to basic states that vary in latitude and height in a nonseparable way. The main problem is how to separate the wave propagation into the vertical and meridional directions. Our approach is diagnostic, where we calculate meridional and vertical wavenumbers from the steady state wave solution to a given basic state, and use them as a diagnostic of the basic state wave propagation characteristics. By applying this wavenumber diagnostic to many model runs we show that the existence of a stratospheric waveguide renders the problem qualitatively one dimensional by determining the meridional wavenumber. In a complementary study, we regard the waves as consisting of many wave activity packets that propagate from the troposphere through the stratosphere, until they dissipate. A technique that follows a wave packet on its journey through the stratosphere, while keeping track of variations in wave activity that are due to refraction of the waves, is introduced and applied to the model runs. Finally, we show that the differences in vertical wave structure between middle and late winter episodes in the southern hemisphere can be explained as a linear response to the seasonal evolution of the basic state wave propagation characteristics. We also show that the occasional daily time scale variations of vertical wave structure within a given wave episode are qualitatively a linear response to time variations of the basic state wave propagation characteristics. (Copies available exclusively from MIT Libraries, Rm. 14-0551, Cambridge, MA 02139-4307. Ph. 617-253-5668; Fax 617-253-1690.) (Abstract shortened by UMI.)
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