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Record #128816:

Marginal ice zone rigidity parameterization from ocean wave refraction / Vernon A. Squire.

Title: Marginal ice zone rigidity parameterization from ocean wave refraction / Vernon A. Squire.
Author(s): Squire, Vernon A.
Date: 1994.
In: Cold Regions Science and Technology. (1994.), Vol. 22(3) (1994)
Abstract: Consequences of choosing particular rigidity L to parameterize marginal ice zone (MIZ) subjected to incoming ocean waves is investigated. It is found that L may be such that no change in principal wavelength occurs when waves of particular wave period enter ice field, and that, when this is so, very simple relationship arises between L and wavelength λ or wave period T. In deep water, for example, L is proportional to hcλ³ or hcT⁶, where h is ice thickness and c is concentration. This suggests that frequency-dependent rigidity may offer improved parameterization of L which may be coupled with eddy viscosity damping for wave propagation through MIZ.
Notes:

Cold Regions Science and Technology. Vol. 22(3) :235-241 (1994).

Keywords: 551.32 -- Glaciology.
551.326.7 -- Sea ice.
551.466 -- Waves and tides, marine.
551.326 -- Floating ice.
519.673 -- Modelling.
E6 -- Glaciology: floating ice.
SPRI record no.: 128816

MARCXML

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500 ## ‡aCold Regions Science and Technology. Vol. 22(3) :235-241 (1994).
520 3# ‡aConsequences of choosing particular rigidity L to parameterize marginal ice zone (MIZ) subjected to incoming ocean waves is investigated. It is found that L may be such that no change in principal wavelength occurs when waves of particular wave period enter ice field, and that, when this is so, very simple relationship arises between L and wavelength λ or wave period T. In deep water, for example, L is proportional to hcλ³ or hcT⁶, where h is ice thickness and c is concentration. This suggests that frequency-dependent rigidity may offer improved parameterization of L which may be coupled with eddy viscosity damping for wave propagation through MIZ.
650 07 ‡a551.32 -- Glaciology.‡2udc
650 07 ‡a551.326.7 -- Sea ice.‡2udc
650 07 ‡a551.466 -- Waves and tides, marine.‡2udc
650 07 ‡a551.326 -- Floating ice.‡2udc
650 07 ‡a519.673 -- Modelling.‡2udc
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917 ## ‡aUnenhanced record from Muscat, imported 2019
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