ELECTROMAGNETIC FIELD INVESTIGATIONS INSIDE A HOLLOW CYLINDER
The behaviours of the electric and magnetic fields inside a conducting cylinder with a single axial aperture are not as well understood as is commonly believed. The experimental measurements and computer simulations described in this paper comprise a work in progress. The intention of the work is to...
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| Veröffentlicht in: | Compel 1995-04, Vol.14 (4), p.223-227 |
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| container_title | Compel |
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| creator | Wieting, Terence J. Andreadis, Tim D. Kidd, John M. Quade, Wayne Namenson, Arthur I. Libello, Louis F. Schleisiger, Christian D. Butler, Chalmers M. |
| description | The behaviours of the electric and magnetic fields inside a conducting cylinder with a single axial aperture are not as well understood as is commonly believed. The experimental measurements and computer simulations described in this paper comprise a work in progress. The intention of the work is to use the conducting cylinder with a single axial aperture as a standard test object, in order to demonstrate present capabilities in measuring field strengths inside such a test object and to demonstrate the level of agreement attainable with commonly used computer codes. As the following experimental data will show, current free-field B-dot sensors cannot be used for measurements inside cavities, as they significantly perturb the fields they are trying to measure. There is indeed a pressing need to develop such nonperturbing sensors for use inside cavities. |
| doi_str_mv | 10.1108/eb051946 |
| format | Article |
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The experimental measurements and computer simulations described in this paper comprise a work in progress. The intention of the work is to use the conducting cylinder with a single axial aperture as a standard test object, in order to demonstrate present capabilities in measuring field strengths inside such a test object and to demonstrate the level of agreement attainable with commonly used computer codes. As the following experimental data will show, current free-field B-dot sensors cannot be used for measurements inside cavities, as they significantly perturb the fields they are trying to measure. There is indeed a pressing need to develop such nonperturbing sensors for use inside cavities.</abstract><cop>Bradford</cop><pub>MCB UP Ltd</pub><doi>10.1108/eb051946</doi><tpages>5</tpages></addata></record> |
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| source | Emerald Journals |
| subjects | Computer based modeling Computer simulation Electromagnetism Electronics Laboratories Magnetic fields Radiation Sensors Statistical analysis Studies |
| title | ELECTROMAGNETIC FIELD INVESTIGATIONS INSIDE A HOLLOW CYLINDER |
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