Abstract: A method of fabricating a mixed ionic-electronic conductor (e.g. TlBr)-based radiation detector having halide-treated surfaces and associated methods of fabrication, which controls polarization of the mixed ionic-electronic MIEC material to improve stability and operational lifetime.

Abstract: A locking mechanism (10) comprising a housing (16) and a shackle (14) having a first side (44) and a second side (46). The shackle (14) is slidable between a primary closed position in which the first and second sides (44 and 46) are each engaged with the housing (16) and a primary open position in which the first side (44) is engaged with the housing (16) and the second side (46) is free from the housing (16). A port (65) is provided in the housing (16) exposing a portion of the first side (44) of the shackle (14) in the primary closed position. Severing the shackle (14) through the port (65) allows the shackle (14) to move from the primary open position to a secondary open position, from which the shackle (14) can move back to a secondary closed position.

Abstract: A method of fabrication of a transparent ceramic using nanoparticles synthesized via organic acid complexation-combustion includes providing metal salts, dissolving said metal salts to produce an aqueous salt solution, adding an organic chelating agent to produce a complexed-metal sol, heating said complexed-metal sol to produce a gel, drying said gel to produce a powder, combusting said powder to produce nano-particles, calcining said nano-particles to produce oxide nano-particles, forming said oxide nano-particles into a green body, and sintering said green body to produce the transparent ceramic.

Abstract: In one embodiment, a system comprises a semiconductor gamma detector material and a hole blocking layer adjacent the gamma detector material, the hole blocking layer resisting passage of holes therethrough. In another embodiment, a system comprises a semiconductor gamma detector material, and an electron blocking layer adjacent the gamma detector material, the electron blocking layer resisting passage of electrons therethrough, wherein the electron blocking layer comprises undoped HgCdTe. In another embodiment, a method comprises forming a hole blocking layer adjacent a semiconductor gamma detector material, the hole blocking layer resisting passage of holes therethrough. Additional systems and methods are also presented.

Abstract: A method according to one embodiment includes growing an organic crystal from solution, the organic crystal exhibiting a signal response signature for neutrons from a radioactive source. A system according to one embodiment includes an organic crystal having physical characteristics of formation from solution, the organic crystal exhibiting a signal response signature for neutrons from a radioactive source; and a photodetector for detecting the signal response of the organic crystal. A method according to another embodiment includes growing an organic crystal from solution, the organic crystal being large enough to exhibit a detectable signal response signature for neutrons from a radioactive source.

Abstract: A locking mechanism (10) comprising a housing (16) and a shackle (14) having a first side (44) and a second side (46). The shackle (14) is slidable between a primary closed position in which the first and second sides (44 and 46) are each engaged with the housing (16) and a primary open position in which the first side (44) is engaged with the housing (16) and the second side (46) is free from the housing (16). A port (65) is provided in the housing (16) exposing a portion of the first side (44) of the shackle (14) in the primary closed position. Severing the shackle (14) through the port (65) allows the shackle (14) to move from the primary open position to a secondary open position, from which the shackle (14) can move back to a secondary closed position.

Abstract: A transparent ceramic according to one embodiment includes a rare earth garnet comprising AhBiCjO12, where h is 3±10%, i is 2±10%, and j is 3±10%. A includes a rare earth element or a mixture of rare earth elements, B includes at least one of aluminum, gallium and scandium, and C includes at least one of aluminum, gallium and scandium, where A is at a dodecahedral site of the garnet, B is at an octahedral site of the garnet, and C is at a tetrahedral site of the garnet. In one embodiment, the rare earth garment has scintillation properties. A radiation detector in one embodiment includes a transparent ceramic as described above and a photo detector optically coupled to the rare earth garnet.

Abstract: A pontoon for a watercraft. The pontoon has a vertical inboard side and a generally angled bottom defined by the inboard side height of the pontoon being greater than its outboard side height. The bottom has planing surfaces that define one or more channels, which produce lift upon the watercraft increasing its speed on water. An inboard horizontal planing surface allows relatively low speed planing.

Abstract: One embodiment includes a material exhibiting an optical response signature for neutrons that is different than an optical response signature for gamma rays, said material exhibiting performance comparable to or superior to stilbene in terms of distinguishing neutrons from gamma rays, wherein the material is not stilbene. Another embodiment includes a substantially pure crystal exhibiting an optical response signature for neutrons that is different than an optical response signature for gamma rays, the substantially pure crystal comprising a material selected from a group consisting of: 1-1-4-4-tetraphenyl-1-3-butadiene; 2-fluorobiphenyl-4-carboxylic acid; 4-biphenylcarboxylic acid; 9-10-diphenylanthracene; 9-phenylanthracene; 1-3-5-triphenylbenzene; m-terphenyl; bis-MSB; p-terphenyl; diphenylacetylene; 2-5-diphenyoxazole; 4-benzylbiphenyl; biphenyl; 4-methoxybiphenyl; n-phenylanthranilic acid; and 1-4-diphenyl-1-3-butadiene.

Abstract: A method according to one embodiment includes growing an organic crystal from solution, the organic crystal exhibiting a signal response signature for neutrons from a radioactive source. A system according to one embodiment includes an organic crystal having physical characteristics of formation from solution, the organic crystal exhibiting a signal response signature for neutrons from a radioactive source; and a photodetector for detecting the signal response of the organic crystal. A method according to another embodiment includes growing an organic crystal from solution, the organic crystal being large enough to exhibit a detectable signal response signature for neutrons from a radioactive source.

Abstract: In one embodiment, a material comprises a crystal comprising strontium iodide providing at least 50,000 photons per MeV. A scintillator radiation detector according to another embodiment includes a scintillator optic comprising europium-doped strontium iodide providing at least 50,000 photons per MeV. A scintillator radiation detector in yet another embodiment includes a scintillator optic comprising SrI2 and BaI2, wherein a ratio of SrI2 to BaI2 is in a range of between 0:1 A method for manufacturing a crystal suitable for use in a scintillator includes mixing strontium iodide-containing crystals with a source of Eu2+, heating the mixture above a melting point of the strontium iodide-containing crystals, and cooling the heated mixture near the seed crystal for growing a crystal. Additional materials, systems, and methods are presented.

Abstract: A padlock comprising a lock body, a plurality of shackles extending from the lock body and a locking mechanism. Each shackle is moveable between a closed position and an open position. The locking mechanism is engageable with each of the shackles such that operation of the locking mechanism with an access control means is required to move any shackle in the closed position to the open position. Severing one of the shackles in the closed position results in one of the other shackles being in the open position and free to move to the closed position.

Abstract: In one embodiment, a system comprises a semiconductor gamma detector material and a hole blocking layer adjacent the gamma detector material, the hole blocking layer resisting passage of holes therethrough. In another embodiment, a system comprises a semiconductor gamma detector material, and an electron blocking layer adjacent the gamma detector material, the electron blocking layer resisting passage of electrons therethrough, wherein the electron blocking layer comprises undoped HgCdTe. In another embodiment, a method comprises forming a hole blocking layer adjacent a semiconductor gamma detector material, the hole blocking layer resisting passage of holes therethrough. Additional systems and methods are also presented.

Abstract: A pontoon for a watercraft. The pontoon has a vertical inboard side and a generally angled bottom defined by the inboard side height of the pontoon being greater than its outboard side height. The bottom has planing surfaces that define one or more channels, which produce lift upon the watercraft increasing its speed on water. An inboard horizontal planing surface allows relatively low speed planing.

Abstract: A system for performing cell population classification in respect of a biological sample. An image is captured in respect of an optical conduit array containing a plurality of cells and signals received therefrom are used to derive a classification scheme defining classes of cells. This scheme is then applied to classify the cells and data representative of the classes and respective locations in the conduit array of the cells.

Abstract: GaTe semiconductor is used as a room-temperature radiation detector. GaTe has useful properties for radiation detectors: ideal bandgap, favorable mobilities, low melting point (no evaporation), non-hygroscopic nature, and availability of high-purity starting materials. The detector can be used, e.g., for detection of illicit nuclear weapons and radiological dispersed devices at ports of entry, in cities, and off shore and for determination of medical isotopes present in a patient.

Abstract: GaTe semiconductor is used as a room-temperature radiation detector. GaTe has useful properties for radiation detectors: ideal bandgap, favorable mobilities, low melting point (no evaporation), non-hygroscopic nature, and availability of high-purity starting materials. The detector can be used, e.g., for detection of illicit nuclear weapons and radiological dispersed devices at ports of entry, in cities, and off shore and for determination of medical isotopes present in a patient.

Abstract: A luggage security device for use on luggage having a zipper including a first zip chain and a second zip chain with first and second zip sliders such that the zipper is sealed when the first zip slider is positioned adjacent the second zip slider. The device includes a zipper engaging portion that engages the first zip chain at a point on the zipper between the first and second zip sliders when the first zip slider is positioned adjacent the second zip slider and a slider engaging portion to engage with both the first and second zip sliders when the first zip slider is positioned adjacent the second zip slider. The slider engaging portion prevents movement of the first zip slider relative to the second zip slider and the zipper engaging portion prevents the first and second zip sliders from moving relative to the zipper.

Abstract: A system for assisting in observing a celestial object and providing synthetic guide star generation. A lasing system provides radiation at a frequency at or near 938 nm and radiation at a frequency at or near 1583 nm. The lasing system includes a fiber laser operating between 880 nm and 960 nm and a fiber laser operating between 1524 nm and 1650 nm. A frequency-conversion system mixes the radiation and generates light at a frequency at or near 589 nm. A system directs the light at a frequency at or near 589 nm toward the celestial object and provides synthetic guide star generation.

Abstract: A method of fabrication of a transparent ceramic using nanoparticles synthesized via organic acid complexation-combustion includes providing metal salts, dissolving said metal salts to produce an aqueous salt solution, adding an organic chelating agent to produce a complexed-metal sol, heating said complexed-metal sol to produce a gel, drying said gel to produce a powder, combusting said powder to produce nano-particles, calcining said nano-particles to produce oxide nano-particles, forming said oxide nano-particles into a green body, and sintering said green body to produce the transparent ceramic.