Solar system

Spectra of local and nonlocal two-dimensional turbulence

Chaos Solitons & Fractals Elsevier 4:6 (1994) 1111-1116

Authors:

Raymond T Pierrehumbert, Isaac M Held, Kyle L Swanson

Tracer microstructure in the large-eddy dominated regime

Chaos Solitons & Fractals Elsevier 4:6 (1994) 1091-1110

Nonlinear Wave Packet Evolution on a Baroclinicaily Unstable Jet

Journal of the Atmospheric Sciences American Meteorological Society 51:3 (1994) 384-396

Authors:

K Swanson, RT Pierrehumbert

Characterization of the thermodynamic behaviour of pressure modulated cells for remote sensing of the atmosphere of Mars

Journal of Quantitative Spectroscopy and Radiative Transfer 52:1 (1994) 1-20

Authors:

PGJ Irwin, SB Calcutt, FW Taylor

Abstract:

A radiometric experiment was conducted to investigate the thermodynamic behaviour of the H2O and CO2 pressure modulated cells of the Pressure Modulator Infrared Radiometer (PMIRR) which flew on "Mars Observer" in 1992. The wave forms and phases of the transmission, emission, pressure and piston position cycles, together with the mean absorption were, for the first time, all measured during the same experiment. The measured transmission and emission cycles were used to calculate the phase and amplitude of the temperature cycles and were found to be super-adiabatic for both cells, in reasonable agreement with a thermal diffusion model. Anomalies were seen in the H2O modulator driving frequency, as has been observed by other authors, but none were evident in the measured cell wave forms suggesting that the water vapour behaves as an ideal gas in the cell. © 1994.

Radiometer for the measurement of water vapor in the upper atmosphere from space.

Appl Opt 32:33 (1993) 6764-6776

Authors:

SB Calcutt, TM Pritchard, CL Hepplewhite, FW Taylor, ST Werrett, E Arijs, D Nevejans

Abstract:

We describe the design, the development, and the calibration of a radiometer to measure water vapor abundance in the middle atmosphere, using the solar occultation technique from an orbiting platform. The use of gas cells containing water vapor and carbon dioxide leads to a relatively simple, but sensitive, design. This radiometer is shown to be capable of detecting water vapor in the mesosphere, where, because of dissociation by the Sun, the amounts are very small, of the order of 1 part per 10(6) or less. A flight version of the instrument will be launched in 1992 on board the European Retrievable Carrier space platform, and the data will be employed for a better understanding of the Earth's water budget.