Patent Number: 
Section: claims

1. A radiation detector system comprising an integrated scintillation detector (ISD), said ISD comprising:(a) alpha scintillator plate (ASP);(b) beta scintillator plate (BSP);(c) beta particle shield plate (BPP);(d) photomultiplier tube (PMT); and(e) radiation detector case (RDC);wherein:said RDC is configured as a rectangular open face box structure (RBS) with an interior detector surface (IDS) comprising interior side walls (ISW) of said RBS and interior bottom face (IBF) of said RBS;said RBS has a length dimension and a width dimension associated with said rectangular open face of said RBS;said RBS has a depth dimension defining a thickness of said RBS;said length dimension is larger than said depth dimension;said width dimension is larger than said depth dimension;said IDS comprises material that is sensitive to gamma radiation and forms a gamma scintillation detector (GSD);said ASP, said BSP, and said BPP are planar rectangular structures stacked in order to form a scintillation array stack (SAS);said ASP comprises a foil covered with alpha radiation sensitive material;said BSP comprises a foil covered with beta radiation sensitive material;said ASP is optically bonded to said BSP;said SAS is configured with no inter-layer gaps between said ASP, said BSP, and said BPP;said SAS comprises an ASP external surface corresponding to a surface of said ASP not facing said BSP;said SAS comprises a BPP internal surface corresponding to a surface of said BPP not facing said BSP;said photomultiplier tube is positioned within said RBS and between said IBF and said SAS;said SAS is configured in a planar rectangular form factor conforming to said open face of said RBS;said SAS is configured to cover said open face of said RBS with said BPP internal surface directed toward said IBF and said ASP external surface directed outward from said IBF;said RBS is configured to contain said SAS and said PMT;said SAS is in proximity to said PMT within said RDC; andsaid PMT is oriented to receive excitation input from said SAS and said IDS. 2. The radiation detector system of claim 1 wherein said ASP comprises a scintillation material having a medium time constant. 3. The radiation detector system of claim 1 wherein said BSP comprises a scintillation material having a short time constant. 4. The radiation detector system of claim 1 wherein said GSD comprises a scintillation material having a long time constant. 5. The radiation detector system of claim 1 wherein said ISD is constructed in an array, said array incorporated into a whole body radiation contamination scanner. 6. The radiation detector system of claim 1 wherein said ISD is incorporated into a laundry radiation scanner. 7. The radiation detector system of claim 1 wherein said ISD is incorporated into a tool/article radiation scanner. 8. The radiation detector system of claim 1 wherein radiation impinging on said ASP surface results in emissions from said SAS that are input to said PMT, said emissions simultaneously detecting any impinging alpha and beta radiation by said PMT. 9. The radiation detector system of claim 1 wherein radiation impinging on said ASP surface results in emissions from said SAS that are input to said PMT, said emissions simultaneously detecting any impinging beta and gamma radiation by said PMT. 10. The radiation detector system of claim 1 wherein radiation impinging on said SAS results in emissions from said SAS that are input to said PMT, said emissions simultaneously detecting any impinging alpha, beta, and gamma radiation by said PMT. 11. The radiation detector system of claim 1 wherein said SAS further comprises a gamma scintillator plate (GSP) stacked on said BPP surface. 12. The radiation detector system of claim 11 wherein said GSP is positioned within 50 mm of said BPP surface.