A theoretical and experimental investigation of the annular jet ground effect machine
In this work the infrared absorption of neutron irradiated silicon was compared to that of non-irradiated silicon at room and liquid nitrogen temperatures. It was found that instead of the 1.75 micron absorption band that has been mentioned in numerous papers transmission was completely cut off belo...
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Virginia Polytechnic Institute
2015
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| Online Access: | http://hdl.handle.net/10919/53025 |
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ndltd-VTETD-oai-vtechworks.lib.vt.edu-10919-530252021-01-09T05:32:22Z A theoretical and experimental investigation of the annular jet ground effect machine Graham, William Alexander Aeronautical Engineering LD5655.V855 1960.G734 Ground-cushion phenomenon Ground-effect machines In this work the infrared absorption of neutron irradiated silicon was compared to that of non-irradiated silicon at room and liquid nitrogen temperatures. It was found that instead of the 1.75 micron absorption band that has been mentioned in numerous papers transmission was completely cut off below about 2.5 microns at room temperature and about 1.8 microns at liquid nitrogen temperature. A weak absorption band was noted at 4.4 microns for all three samples at liquid nitrogen temperature and the two irradiated samples at room temperature. Absorption due to free carriers depressed at the longer wavelengths (10-15 microns) with irradiation and cooling as was expected from past experiments. The resistivity of Si₄ increased from an assumed initial value of 10³ ohm-om to 1.89 x 10⁵ ohm-om. Master of Science 2015-06-23T19:08:03Z 2015-06-23T19:08:03Z 1960 Thesis Text http://hdl.handle.net/10919/53025 en_US OCLC# 26846963 In Copyright http://rightsstatements.org/vocab/InC/1.0/ 102, [2] leaves application/pdf application/pdf Virginia Polytechnic Institute |
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NDLTD |
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en_US |
| format |
Others
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NDLTD |
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LD5655.V855 1960.G734 Ground-cushion phenomenon Ground-effect machines |
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LD5655.V855 1960.G734 Ground-cushion phenomenon Ground-effect machines Graham, William Alexander A theoretical and experimental investigation of the annular jet ground effect machine |
| description |
In this work the infrared absorption of neutron irradiated silicon was compared to that of non-irradiated silicon at room and liquid nitrogen temperatures. It was found that instead of the 1.75 micron absorption band that has been mentioned in numerous papers transmission was completely cut off below about 2.5 microns at room temperature and about 1.8 microns at liquid nitrogen temperature. A weak absorption band was noted at 4.4 microns for all three samples at liquid nitrogen temperature and the two irradiated samples at room temperature. Absorption due to free carriers depressed at the longer wavelengths (10-15 microns) with irradiation and cooling as was expected from past experiments. The resistivity of Si₄ increased from an assumed initial value of 10³ ohm-om to 1.89 x 10⁵ ohm-om. === Master of Science |
| author2 |
Aeronautical Engineering |
| author_facet |
Aeronautical Engineering Graham, William Alexander |
| author |
Graham, William Alexander |
| author_sort |
Graham, William Alexander |
| title |
A theoretical and experimental investigation of the annular jet ground effect machine |
| title_short |
A theoretical and experimental investigation of the annular jet ground effect machine |
| title_full |
A theoretical and experimental investigation of the annular jet ground effect machine |
| title_fullStr |
A theoretical and experimental investigation of the annular jet ground effect machine |
| title_full_unstemmed |
A theoretical and experimental investigation of the annular jet ground effect machine |
| title_sort |
theoretical and experimental investigation of the annular jet ground effect machine |
| publisher |
Virginia Polytechnic Institute |
| publishDate |
2015 |
| url |
http://hdl.handle.net/10919/53025 |
| work_keys_str_mv |
AT grahamwilliamalexander atheoreticalandexperimentalinvestigationoftheannularjetgroundeffectmachine AT grahamwilliamalexander theoreticalandexperimentalinvestigationoftheannularjetgroundeffectmachine |
| _version_ |
1719372396383698944 |