Abstract: HCFO-containing isocyanate-reactive compositions, foam-forming compositions containing such isocyanate-reactive compositions, rigid PUR-PIR foams made using such foam-forming compositions, and methods for producing such foams, including use of such foams as insulation in discontinuous foam panel applications. The isocyanate-reactive composition includes a polyol blend, a blowing agent composition, and a tertiary amine catalyst. The polyol blend includes: (1) an aromatic polyester polyol having a functionality of 1.5 to less than 2.5 and an OH number of 150 to 360 mg KOH/g; (2) an aromatic polyester polyol having a functionality of at least 2.5 and an OH number greater than 360 mg KOH/g, which is present in an amount of at least 10% by weight, based on the total weight of the aromatic polyester polyol in the polyol blend; and (3) an amine-initiated polyether polyol having an OH number of at least 500 mg KOH/g and a functionality of 2.5 to 4.

Abstract: The disclosure relates to modified orthopoxvirus vectors, as well as methods of using the same for the treatment of various cancers. The disclosure provides modified orthopoxvirus vectors that exhibit various beneficial therapeutic activities, including enhanced oncolytic activity, spread of infection, immune evasion, tumor persistence, capacity for incorporation of exogenous DNA sequences and safety. The viruses we have discovered are also amenable to large scale manufacturing protocols.

Abstract: A method uses an infrared imaging system to produce an image of a scene. Actual infrared radiation from the scene is detected to form a biased signal representing the radiances of objects wiithin the scene, and the biased signal is diffracted by causing rays of the radiation to pass through an array of lenslets at angles devitated from their normal path. The array includes an infrared transmissive deformable film which retains a pattern stamped into it, the pattern including a plurality of the diffracting lenslets. The diffracted and defocused radiation is detected to form a reference signal, the reference signal is subtracted from the biased signal to obtain an unbiased signal, and an image is generated and displayed in reponse to the unbiased signal.

Abstract: A chopper and method of making same, the chopper being fabricated by initially generating a photomask in conjunction with software. The software provides the lens design to be finally stamped onto the chopper element. A silicon wafer is then etched by reactive ion etching using the photomask to provide the pattern and resulting in a silicon wafer master of the chopper pattern with regions in the shape of lenslets to be formed of desired dimension. The chopper pattern on the silicon wafer is then replicated with a hard material which can be easily stripped from the silicon wafer without damaging either the wafer or the hard material, preferably deposited nickel. The separated nickel replication is then used in conjunction with a heavy press to stamp out sheets of an infrared transmissive flexible film, preferably polyethylene, with the lens pattern in the replication. The film with the lens pattern thereon is the chopper element.

Abstract: A chopper and method of making same, the chopper being fabricated by initially generating a photomask in conjunction with software. The software provides the lens design to be finally stamped onto the chopper element. A silicon wafer is then etched by reactive ion etching using the photomask to provide the pattern and resulting in a silicon wafer master of the chopper pattern with regions in the shape oflenslets to be formed of desired dimension. The chopper pattern on the silicon wafer is then replicated with a hard material which can be easily stripped from the silicon wafer without damaging either the wafer or the hard material, preferably deposited nickel. The separated nickel replication is then used in conjunction with a heavy press to stamp out sheets of an infrared transmissive flexible film, preferably polyethylene, with the lens pattern in the replication The film with the lens pattern thereon is the chopper element. The system is designed to operate in the 8 to 13.5 micron range.