Claims
- 1. An apparatus for improving detection of an information signal within the solar blind UV spectrum comprising:
- means for amplifying impinging radiation that is in a passband outside of the solar blind UV spectrum to produce a representative output signal; and
- means disposed adjacent the impinging radiation amplifying means to receive the information signal for shifting the wavelength of the received information signal to the passband of the impinging radiation, the wavelength shifting means is provided with a coating to pass the information signal wavelength and a layer to pass the impinging radiation passband, said layer has a passband that does not overlap the passband of the coating, the wavelength shifting means is provided with a first area surface that is covered by the coating to provide a wide area, wide field of view detection of the information signal, a second area surface that is covered by the layer and is disposed adjacent the impinging radiation amplifying means and a volume between the first area surface and second area surface filled with a material responsive to absorb radiation of the information signal to transition to a longer wavelength and to provide fluorescent emission within the passband of the impinging radiation, the material is ruby otherwise known as Chromium doped sapphire (Al.sub.2 O.sub.3 :Cr.sup.3+), the information signal wavelength is 253.7 nm and the passband of the received information blocks radiation beyond 240 nm to 270 nm.
- 2. An apparatus according to claim 1 in which the impinging radiation amplifying means is a photomultiplier tube sensitive to the fluorescent emission in the passband of the received information.
- 3. A method of improving the detection efficiency of an information signal within the solar blind UV spectrum comprising:
- blocking out signals other than a passband including the information signal;
- shifting the frequency of the information signal to a bandwidth outside of the solar blind UV spectrum;
- blocking out signals other than the bandwidth outside of the solar blind UV spectrum and
- amplifying the signals within the bandwidth, the shifting includes the transition of wavelengths to longer wavelengths and the transition includes locating a ruby block to receive the information signal passband to assure the transition to the longer wavelengths of fluorescent emission.
STATEMENT OF GOVERNMENT INTEREST
The invention described herein may be manufactured and used by or for the Government of the United States of America for governmental purposes without the payment of any royalties thereon or therefor.
US Referenced Citations (8)