Matches in DBpedia 2015-10 for { <http://dbpedia.org/resource/Bridgman–Stockbarger_technique> ?p ?o }
Showing triples 1 to 41 of
41
with 100 triples per page.
- Bridgman–Stockbarger_technique abstract "The Bridgman–Stockbarger technique is named after Harvard physicist Percy Williams Bridgman and MIT physicist Donald C. Stockbarger (1895–1952). They are two similar methods primarily used for growing single crystal ingots (boules), but which can be used for solidifying polycrystalline ingots as well.The methods involve heating polycrystalline material above its melting point and slowly cooling it from one end of its container, where a seed crystal is located. A single crystal of the same crystallographic orientation as the seed material is grown on the seed and is progressively formed along the length of the container. The process can be carried out in a horizontal or vertical geometry.The Bridgman method is a popular way of producing certain semiconductor crystals such as gallium arsenide, for which the Czochralski process is more difficult.The difference between the Bridgman technique and Stockbarger technique is subtle: While both methods utilize a temperature gradient and a moving crucible, the Bridgman technique utilizes the relatively uncontrolled gradient produced at the exit of the furnace; the Stockbarger technique introduces a baffle, or shelf, separating two coupled furnaces with temperatures above and below the freezing point. Stockbarger's modification of the Bridgman technique allows for better control over the temperature gradient at the melt/crystal interface.When seed crystals are not employed as described above, polycrystalline ingots can be produced from a feedstock consisting of rods, chunks, or any irregularly shaped pieces once they are melted and allowed to re-solidify. The resultant microstructures of the ingots so obtained are characteristic of directionally solidified metals and alloys with their aligned grains.".
- Bridgman–Stockbarger_technique wikiPageID "1159136".
- Bridgman–Stockbarger_technique wikiPageLength "2827".
- Bridgman–Stockbarger_technique wikiPageOutDegree "15".
- Bridgman–Stockbarger_technique wikiPageRevisionID "679318237".
- Bridgman–Stockbarger_technique wikiPageWikiLink Boule_(crystal).
- Bridgman–Stockbarger_technique wikiPageWikiLink Category:Industrial_processes.
- Bridgman–Stockbarger_technique wikiPageWikiLink Category:Semiconductor_growth.
- Bridgman–Stockbarger_technique wikiPageWikiLink Czochralski_process.
- Bridgman–Stockbarger_technique wikiPageWikiLink Donald_C._Stockbarger.
- Bridgman–Stockbarger_technique wikiPageWikiLink Float-zone_silicon.
- Bridgman–Stockbarger_technique wikiPageWikiLink Gallium_arsenide.
- Bridgman–Stockbarger_technique wikiPageWikiLink Ingot.
- Bridgman–Stockbarger_technique wikiPageWikiLink Laser-heated_pedestal_growth.
- Bridgman–Stockbarger_technique wikiPageWikiLink Micro-pulling-down.
- Bridgman–Stockbarger_technique wikiPageWikiLink Percy_Williams_Bridgman.
- Bridgman–Stockbarger_technique wikiPageWikiLink Seed_crystal.
- Bridgman–Stockbarger_technique wikiPageWikiLink Semiconductor.
- Bridgman–Stockbarger_technique wikiPageWikiLink Single_crystal.
- Bridgman–Stockbarger_technique wikiPageWikiLinkText "Bridgman technique".
- Bridgman–Stockbarger_technique wikiPageWikiLinkText "Bridgman–Stockbarger technique".
- Bridgman–Stockbarger_technique wikiPageWikiLinkText "Stockbarger".
- Bridgman–Stockbarger_technique hasPhotoCollection Bridgman–Stockbarger_technique.
- Bridgman–Stockbarger_technique wikiPageUsesTemplate Template:Chem-stub.
- Bridgman–Stockbarger_technique wikiPageUsesTemplate Template:Crystallization.
- Bridgman–Stockbarger_technique wikiPageUsesTemplate Template:Refimprove.
- Bridgman–Stockbarger_technique wikiPageUsesTemplate Template:Reflist.
- Bridgman–Stockbarger_technique subject Category:Industrial_processes.
- Bridgman–Stockbarger_technique subject Category:Semiconductor_growth.
- Bridgman–Stockbarger_technique comment "The Bridgman–Stockbarger technique is named after Harvard physicist Percy Williams Bridgman and MIT physicist Donald C. Stockbarger (1895–1952). They are two similar methods primarily used for growing single crystal ingots (boules), but which can be used for solidifying polycrystalline ingots as well.The methods involve heating polycrystalline material above its melting point and slowly cooling it from one end of its container, where a seed crystal is located.".
- Bridgman–Stockbarger_technique label "Bridgman–Stockbarger technique".
- Bridgman–Stockbarger_technique sameAs Bridgman-Stockbarger-Methode.
- Bridgman–Stockbarger_technique sameAs Procédé_de_Bridgman-Stockbarger.
- Bridgman–Stockbarger_technique sameAs Bridgeman-methode.
- Bridgman–Stockbarger_technique sameAs Metoda_Bridgmana-Stockbargera.
- Bridgman–Stockbarger_technique sameAs m.04c73k.
- Bridgman–Stockbarger_technique sameAs Метод_Бріджмена.
- Bridgman–Stockbarger_technique sameAs Q902938.
- Bridgman–Stockbarger_technique sameAs Q902938.
- Bridgman–Stockbarger_technique wasDerivedFrom Bridgman–Stockbarger_technique?oldid=679318237.
- Bridgman–Stockbarger_technique isPrimaryTopicOf Bridgman–Stockbarger_technique.