A pop gear or gang troll includes a wire leader and a plurality of spinner blades. The spinner blades may include a polycarbonate body or a body of some other material, a fragmented reflective material disposed on the polycarbonate body so as to reflect incident light in varying directions depending on the relative location of the incident light, and a luminescent material. The spinner blades may have a shape such as generally fish shaped, ovoid, round, or spoon shaped. A lure includes a polycarbonate body (or a body formed from some other material), a fragmented reflective material disposed on the polycarbonate body so as to reflect incident light in varying directions depending on the relative location of the incident light, a luminescent material, and a hook attached to the body. The body of the lure may have a shape designed to lure fish and/or to cause a desired motion to the lure (e.g., vibration).

A pop gear or gang troll includes a wire leader and a plurality of spinner blades. The spinner blades may include a polycarbonate body or a body of some other material, a fragmented reflective material disposed on the polycarbonate body so as to reflect incident light in varying directions depending on the relative location of the incident light, and a luminescent material. The spinner blades may have a shape such as generally fish shaped, ovoid, round, or spoon shaped. A lure includes a polycarbonate body (or a body formed from some other material), a fragmented reflective material disposed on the polycarbonate body so as to reflect incident light in varying directions depending on the relative location of the incident light, a luminescent material, and a hook attached to the body. The body of the lure may have a shape designed to lure fish and/or to cause a desired motion to the lure (e.g., vibration).

A method includes obtaining a potassium hexafluorosilicate (PFS)-based powder, obtaining a fluidization material, and mixing the PFS-based powder with the fluidization material to form a PFS-based mixture. The PFS-based mixture is configured to be mixed with a resinous material to form a flowing phosphor blend configured to be placed onto a light source to form a phosphor on the light source.

A method includes obtaining a potassium hexafluorosilicate (PFS)-based powder, obtaining a fluidization material, and mixing the PFS-based powder with the fluidization material to form a PFS-based mixture. The PFS-based mixture is configured to be mixed with a resinous material to form a flowing phosphor blend configured to be placed onto a light source to form a phosphor on the light source.

A special light saber blade coating and a process to make the coated blade which provides a replica sword as an authentic-looking device as seen in “Star Wars” movies, out-takes and re-enactments. The sword blade device provides a unique and realistic replica of the light saber. The process using epoxy, color glitter and other materials is a set of repetitive steps to place the mixture of epoxy onto the blade with a method that is economic and repeatable producing a light saber blade with quality and durability.

A special light saber blade coating and a process to make the coated blade which provides a replica sword as an authentic-looking device as seen in “Star Wars” movies, out-takes and re-enactments. The sword blade device provides a unique and realistic replica of the light saber. The process using epoxy, color glitter and other materials is a set of repetitive steps to place the mixture of epoxy onto the blade with a method that is economic and repeatable producing a light saber blade with quality and durability.

A cooperative vehicle-highway communication system allows vehicles and pedestrians to determine their location by sensing selected coatings on roadways, sidewalks, and other paved surfaces in both indoor and outdoor environments. The systems recognize intelligent materials under sensors to determine geo-location. The intelligent materials are incorporated into paints on the roadway surface to mark key locations. Additionally, vehicles recognize highway paint/markings and signs with intelligent paint that provide specialized message content to support driver information and control applications. The intelligent paint materials include a coating that absorbs light while converting the absorbed light to electromagnetic energy. This electromagnetic energy is read by sensors to recognize the materials. The sensors transform the electromagnetic energy into processing signals to determine operating characteristics of the vehicle, including position and motion characteristics, and to provide operation actions of the vehicle. For mobility impaired pedestrians, the precisely defined geo-locations

A cooperative vehicle-highway communication system allows vehicles and pedestrians to determine their location by sensing selected coatings on roadways, sidewalks, and other paved surfaces in both indoor and outdoor environments. The systems recognize intelligent materials under sensors to determine geo-location. The intelligent materials are incorporated into paints on the roadway surface to mark key locations. Additionally, vehicles recognize highway paint/markings and signs with intelligent paint that provide specialized message content to support driver information and control applications. The intelligent paint materials include a coating that absorbs light while converting the absorbed light to electromagnetic energy. This electromagnetic energy is read by sensors to recognize the materials. The sensors transform the electromagnetic energy into processing signals to determine operating characteristics of the vehicle, including position and motion characteristics, and to provide operation actions of the vehicle. For mobility impaired pedestrians, the precisely defined geo-locations

An object of the present invention is to provide a golf ball showing both striking a good balance between the visibility and the weather resistance. The present invention provides a golf ball comprising a golf ball body and two or more paint film layers formed on a surface of the golf ball body, wherein the paint film layers comprises a first paint film layer containing an inorganic fluorescent agent but substantially not containing an ultraviolet absorber, and a second paint film layer containing an ultraviolet absorber but substantially not containing an inorganic fluorescent agent; and the second paint film layer is disposed inside the first paint film layer.

An object of the present invention is to provide a golf ball showing both striking a good balance between the visibility and the weather resistance. The present invention provides a golf ball comprising a golf ball body and two or more paint film layers formed on a surface of the golf ball body, wherein the paint film layers comprises a first paint film layer containing an inorganic fluorescent agent but substantially not containing an ultraviolet absorber, and a second paint film layer containing an ultraviolet absorber but substantially not containing an inorganic fluorescent agent; and the second paint film layer is disposed inside the first paint film layer.