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231. |
Comparison of Bitter Patterns and X‐Ray Images of Domains in Fe&sngbnd;Si Crystals |
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Journal of Applied Physics,
Volume 42,
Issue 4,
1971,
Page 1814-1816
Carl Cm. Wu,
Barton Roessler,
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摘要:
Ferromagnetic domains as well as imperfections in the interior of Fe&sngbnd;Si single crystals are observed by the x‐ray topographic technique employing the anomalous transmission of x‐rays (Borrmann effect). X‐ray topographic images of domains are compared with the Bitter patterns obtained in the same region of a single crystal of Fe&sngbnd;3% Si. It is shown that when a suitable reflecting plane is used and the domain arrangement remains unchanged during the experiment, an exact correlation exists between the Bitter pattern and the x‐ray topograph.
ISSN:0021-8979
DOI:10.1063/1.1660447
出版商:AIP
年代:1971
数据来源: AIP
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232. |
Magneto‐Optic Signal Processing |
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Journal of Applied Physics,
Volume 42,
Issue 4,
1971,
Page 1816-1818
Harrison W. Fuller,
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PDF (222KB)
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摘要:
A modification of the well‐known methods for optical processing recorded signals using coherent light and the Fourier‐transform properties of lens systems is described, in which the signals are magnetically recorded in a conventional fashion on high‐coercivity metallic magnetic films and in which the longitudinal Kerr effect is used to spatially modulate the light beam. The recorded signals act as a 180° phase object when using the Kerr magneto‐optic effect which allows the polarizer and analyzer to be accurately crossed for extinction of the zero‐order diffraction spot that would otherwise be troublesomely intense. The principal advantages offered by magnetic film signal recording compared with recording on photographic film are the elimination of developmental processing and the ability to erase and rerecord. High writing speed and relatively high recording density are possible. Experimental results indicate an achievable optical efficiency in the general range of 10−6, an integration time‐bandwidth product approaching 106, and practical operating frequencies from the very lowest to the multimegahertz range.
ISSN:0021-8979
DOI:10.1063/1.1660448
出版商:AIP
年代:1971
数据来源: AIP
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