Search for dissertations about: "atmospheric radiative transfer"
Showing result 1 - 5 of 23 swedish dissertations containing the words atmospheric radiative transfer.
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1. Modeling the Zeeman Effect in Planetary Atmospheric Radiative Transfer
Abstract : There are special effects in spectroscopy that must be considered in order to fullyexplain how molecular oxygen interacts with radiation in planetary atmospheres.One of these, the Zeeman effect, is described in this thesis. READ MORE
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2. Microwave and infrared remote sensing of ice clouds : measurements and radiative transfer simulations
Abstract : This licentiate thesis considers the combination of multiple instruments for remote sensing of the Earth atmosphere from space. The primary focus is on remote sensing of atmospheric ice. Ice clouds are important for the Earth’s radiation budget, but their properties are difficult to measure and therefore poorly known. READ MORE
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3. Radiative transfer in the absorption bands of oxygen : Studies of their significance in ozone chemistry and potential for aerosol remote sensing
Abstract : Among the scientific topics of greatest public interest are the ozone question and climatic change. The discovery of the Antarctic ozone hole in 1985 and recognition of large scale ozone depletions in the northern hemisphere focused the world's attention on human induced changes in the atmosphere. READ MORE
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4. Remote sensing of ice clouds : synergistic measurements and radiative transfer simulations
Abstract : This thesis primarily considers the spaceborne remote sensing of ice clouds and frozen precipitation. Ice clouds are important for hydrology and for the Earth’s radiation budget, but many properties are difficult to measure, in particular using spaceborne instruments. READ MORE
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5. Modeling the Zeeman Effect in Planetary Radiative Transfer and Applications
Abstract : Remote sensing is about retrieving distant physical properties from locally observed radiation. The first step to remote sensing is to describe, or model, the radiative transfer. READ MORE