See Hohlraum effect in All languages combined, or Wiktionary
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"etymology_text": "(At least 1960s) From the German Hohlraum (“empty room”).",
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"text": "In a cavity with optically thick walls, or Hohlraum, a material surrounded in this cavity will achieve the same temperature in time as the surroundings and will become indistinguishable from the Hohlraum’s surrounding walls. It becomes indistinguishable because everything in and surrounding the cavity is emitting at the same temperature and also reflecting the emissions of the cavity. Since by Kirchhoff’s law emissivity + reflectivity = 1, everything in the cavity appears the same. … Another example of this Hohlraum effect can be seen in the process of ashing a chemical sample or firing clay in an oven. As everything in the oven comes to the same temperature, the individual objects inside the oven disappear and cannot be seen or at least are very hard to see. Radiatively, everything has to reach an equilibrium state where photons are continually absorbed or reflected and those absorbed are re-radiated, but all at the same blackbody temperature. Hence, everything optically blends together and contrast between the walls and the object effectively disappears. - Mitchell, Herbert J.; Salvaggio, Carl (2003); \"The MWIR and LWIR Spectral Signatures of Water and Associated Materials\" in Shen, Sylvia S.; and Lewis, Paul E. (ed.), Algorithms and Technologies for Multispectral, Hyperspectral, and Ultraspectral Imagery IX, vol. 5093, Proceedings of SPIE"
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"(spectroscopy) Described by Herbert J. Mitchell and Carl Salvaggio as follows:"
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"text": "In a cavity with optically thick walls, or Hohlraum, a material surrounded in this cavity will achieve the same temperature in time as the surroundings and will become indistinguishable from the Hohlraum’s surrounding walls. It becomes indistinguishable because everything in and surrounding the cavity is emitting at the same temperature and also reflecting the emissions of the cavity. Since by Kirchhoff’s law emissivity + reflectivity = 1, everything in the cavity appears the same. … Another example of this Hohlraum effect can be seen in the process of ashing a chemical sample or firing clay in an oven. As everything in the oven comes to the same temperature, the individual objects inside the oven disappear and cannot be seen or at least are very hard to see. Radiatively, everything has to reach an equilibrium state where photons are continually absorbed or reflected and those absorbed are re-radiated, but all at the same blackbody temperature. Hence, everything optically blends together and contrast between the walls and the object effectively disappears. - Mitchell, Herbert J.; Salvaggio, Carl (2003); \"The MWIR and LWIR Spectral Signatures of Water and Associated Materials\" in Shen, Sylvia S.; and Lewis, Paul E. (ed.), Algorithms and Technologies for Multispectral, Hyperspectral, and Ultraspectral Imagery IX, vol. 5093, Proceedings of SPIE"
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This page is a part of the kaikki.org machine-readable English dictionary. This dictionary is based on structured data extracted on 2024-09-22 from the enwiktionary dump dated 2024-09-20 using wiktextract (af5c55c and 66545a6). The data shown on this site has been post-processed and various details (e.g., extra categories) removed, some information disambiguated, and additional data merged from other sources. See the raw data download page for the unprocessed wiktextract data.
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