Gene W. McDaniel scite author profile

Gene W. McDaniel

3Publications

7Citation Statements Received

16Citation Statements Given

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Inotek Pharmaceuticals (United States)

Publications

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Thermal Imaging by Means of the Evaporograph

McDaniel¹,

Robinson²

1962

Appl. Opt.

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The development of a thermal imaging device which operates on the principle of differential evaporation (or condensation) of oil on a thin membrane is described. Section I,A summarizes the requirements of any thermal imaging method and develops the theory as applied to the particular case of the Evaporograph, emphasizing the consideration of scene temperatures near 20'C. It is shown that the greatest component of irradiance at the membrane is utilized in the evaporation of the oil layer. A presentation system which forms a visible image based on the phenomenon of light interference to detect differences in the thickness of the oil film is described. Theoretical calculations based on this system, assuming a reasonable minimum detectable thickness difference, indicate that a temperature difference of 1 0 C in the scene can be detected with an f = 2 optical system. Experimental results confirm this. The application of the Evaporograph to quantitative measurements is indicated. Section I,B describes experimental work on the three components of the Evaporograph, the infrared optical system, the transducer or cell, and the visual optical system. The two commercial models which have evolved from this work are described. These Evaporographs can detect a temperature difference of 1 0 C from a 20'C background and have a resolution of 10 lines per mm. Various applications are pictured and described.

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IMAGE STORAGE AND OPTICAL READOUT IN A ZnS DEVICE

Oliver

Vohl

Aldrich

et al. 1970

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The operation of an image storage panel, which is read in by means of optical absorption and read out in visible light by means of the Pockels electro-optic effect, has been demonstrated. The sensing, storing, and readout medium consists of a single-crystal film of cubic ZnS coated with a blocking contact. Performance characteristics observed to date on devices with areas between 1 and 2 cm2 are resolution of 85 line pairs/mm, continuous visible readout for 1 h, and image storage for up to 100 h. The readin sensitivity to achieve a 2:1 contrast ratio in readout is 20 erg/cm2.

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Inspecting Infrared Optical Materials and Systems by Means of the Evaporograph

McDaniel¹,

DiMattia²

1962

Appl. Opt.

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Gene W. McDaniel

Thermal Imaging by Means of the Evaporograph

IMAGE STORAGE AND OPTICAL READOUT IN A ZnS DEVICE

Inspecting Infrared Optical Materials and Systems by Means of the Evaporograph

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