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| A more recent use for absorbers is for ionization cooling, as in the ]. | A more recent use for absorbers is for ionization cooling, as in the ]. | ||
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| In solar energy, the most important part of the collector takes up the heat of the ] ] through a medium (water + ]). This is heated and circulates between the collector and the storage tank. A high degree of efficiency is achieved by using black absorbers or, even better, through selective coating. | In solar energy, the most important part of the collector takes up the heat of the ] ] through a medium (water + ]). This is heated and circulates between the collector and the storage tank. A high degree of efficiency is achieved by using black absorbers or, even better, through selective coating. | ||
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Revision as of 06:56, 28 February 2006
In high energy physics experiments, an absorber is a block of material used to absorb some of the energy of an incident particle. Absorbers can be made of a variety of materials, depending on the purpose; lead and liquid hydrogen are common choices.
Most absorbers are used as part of a detector.
A more recent use for absorbers is for ionization cooling, as in the International Muon Ionization Cooling Experiment.
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In solar energy, the most important part of the collector takes up the heat of the solar radiation through a medium (water + antifreeze). This is heated and circulates between the collector and the storage tank. A high degree of efficiency is achieved by using black absorbers or, even better, through selective coating.
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