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Diffusion of Light in Antarctic Sea Ice

Published online by Cambridge University Press:  28 February 2011

R G Buckley
Affiliation:
Physics and Engineering Laboratory, Department of Scientific and Industrial Research, P 0 Box 31313, Lower Hutt, New Zealand
H J Trodahl
Affiliation:
Department of Physics, Victoria University of Wellington, P O Box 600, Wellington, New Zealand
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Abstract

It is important to understand the diffusion sun light in sea ice as this interaction exerts a strong influence over the weather in polar regions and over the growth of microbial communities in the sub-ice water column. Sea ice is a granular composite of ice, brine, air and at low temperatures precipitated salts, in which the proportion and disposition of these components vary with depth, with temperature and thermal history. It is demonstrated that by using a simple in situ technique, supported by Monto Carlo simulations, the diffusive transport of light through a weakly absorbing composite such as sea ice can be characterised. The radiation field both within and emergent from the ice is found to reflect the anisotropic structure of the ice, in particular, the scattering is found to be highly anisotropic so that the light is channelled predominantly vertically. The technique will be illustrated with experimental results collected in McMurdo Sound, Antarctica.

Type
Research Article
Copyright
Copyright © Materials Research Society 1990

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References

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