Stationary, electrically alterable, optical masking device and spectroscopic apparatus employing same
First Claim
1. A radiation masking and redirecting assembly comprising:
- an electrically alterable mask device includingsubstrate means presenting a pair of opposed faces and being relatively transmissive to radiations of selected wavelengths;
a plurality of solid, electrically conductive masking structures supported upon one face of said substrate means and being electrically insulated from each other; and
connector means electrically coupled with each of said masking structures respectively for connection of said respective structures with a source of electrical current for passage of electrical current through said masking structures as desired,each of said masking structures being formed of a diachromatic material which can be selectively altered between a condition where it is relatively transmissive for said radiations, and a condition where it is substantially opaque and relatively reflective for said radiations, by changing the magnitude of electrical current passing through the structure; and
at least one mirror having a reflective surface diverging at a predetermined angle from said one face of said substrate means.
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Accused Products
Abstract
An improved masking device for optical-type radiations is provided and employed in improved optical apparatus, such as spectrometers, requiring alterable radiation masking. The masking device involves no movable parts, is adapted to operate in a fixed position and has radiation transmission and/or reflection characteristics which are selectively alterable merely by controlling electrical excitation applied to the device. The masking device typically has a plurality of separated and predisposedly offset, coplanar zones of solidified, electro-optically active material carried upon a typically transparent substrate and bounded by areas of an opaque material. The active material may be any of the crystalline or polycrystalline materials which have the property of changing their optical characteristic between being relatively transmissive and being relatively reflective and/or opaque for radiations of the wavelengths of interest, in response to the passage of electrical current through the material. Alteration of the optical masking pattern configuration of the masking device under electrical control is sufficiently rapid to accommodate to computerized optical apparatus, such as infrared spectroscopic systems utilizing Hadamard transforms or analogous mathematical techniques.
40 Citations
10 Claims
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1. A radiation masking and redirecting assembly comprising:
an electrically alterable mask device including substrate means presenting a pair of opposed faces and being relatively transmissive to radiations of selected wavelengths; a plurality of solid, electrically conductive masking structures supported upon one face of said substrate means and being electrically insulated from each other; and connector means electrically coupled with each of said masking structures respectively for connection of said respective structures with a source of electrical current for passage of electrical current through said masking structures as desired, each of said masking structures being formed of a diachromatic material which can be selectively altered between a condition where it is relatively transmissive for said radiations, and a condition where it is substantially opaque and relatively reflective for said radiations, by changing the magnitude of electrical current passing through the structure; and at least one mirror having a reflective surface diverging at a predetermined angle from said one face of said substrate means. - View Dependent Claims (2, 3, 4, 5)
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6. A spectrophotometer, comprising:
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a source of radiation; a stationary, fixedly mounted, electrooptical masking device including a body presenting a pair of opposed faces, zone-defining means carried by the body for dividing at least one of said faces into a plurality of discrete, selectively alterable zones; means operably coupled with said body for selective, electrical alteration of each zone respectively between a condition where it is relatively transmissive for said radiation, and a condition where it is relatively opaque for said radiation, said zone condition-altering means including means for successively and sequentially producing over the time of a single spectral analysis and in a predetermined fashion a number of different patterns of zones carried by the body which are rendered relatively transmissive and opaque, whereby different ones of said zones are predeterminedly rendered relatively transmissive and opaque at different times during said time of said single spectral analysis; means for directing radiation from said source as continuous, unmodulated radiation onto a face of said masking device, said zone condition-altering means being operable for passing of said radiation unmodulated through said zones when rendered relatively transmissive; said radiation source and masking device being correlated such that the radiation from said source is of a wavelength which will pass unmodulated through the zones of said body when such zones are in said relatively transmissive condition; detector means associated with said mask for successively and sequentially detecting certain of the radiation initially directed onto said one mask face during each predetermined mask pattern of relatively transmissive and opaque zones; and means operably connected with said detector means for sucessively receiving and analyzing detected radiation information received from the detector means during each of said predetermined mask patterns, in order to provide a spectral analysis. - View Dependent Claims (7, 8, 9)
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10. A spectrophotometer, comprising:
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a source of radiation; a stationary, fixedly mounted, electrooptical masking device including a body presenting a pair of opposed face, zone-defining means carried by the body for dividing at least one of said faces into a plurality of discrete, selectively alterably zones; means operably coupled with said body for selective, electrical alteration of each zone respectively between a condition where it is relatively transmissive for said radiation, and a condition where it is relatively opaque for said radiation, said zone condition-altering means including means for successively and sequentially changing over time in a predetermined fashion the pattern of zones carried by the body which are rendered relatively transmissive and opaque, whereby different ones of said zones are predeterminedly rendered relatively transmissive and opaque at different times during a given spectral analysis; means for directing radiation from said source as continuous, unmodulated radiation onto a face of said masking device, said radiation source and masking device being correlated such that the radiation from said source is of a wavelength which will pass through the zones of said body when such zones are in said relatively transmissive condition; detector means for successively and sequentially detecting certain of the radiation initially directed onto said one mask face during each predetermined mask pattern of relatively transmissive and opaque zones; means operably connected with said detector means for successively receiving and analyzing detected radiation information received from the detector means during each of said predetermined mask patterns, in order to provide a spectral analysis; and said masking device comprising a substrate, said zone-defining means including a plurality of discrete structures formed of diachromatic material and supported by said substrate, there being respective electrical connector means operably coupled with each of said structures for selective application of electrical current thereto.
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Specification