Disclosed are methods, circuits, components, apparatus, devices, assemblies and systems for imaging. According to some embodiments, there may be provided a sight for a firearm to assist in aiming the firearm towards a target in a field of view of the sight. A target view optical assembly introduces additional light information to light passing from an objective-side aperture to a viewing-side aperture. A display array assembly renders and collimates the additional light information coupled into the passing light. And a controller causes a display array of the display array assembly to dynamically render a targeting reticle, wherein a location of the dynamically rendered targeting reticle on the display is a function of a distance to an intended target.

A targeting system for visualizing a target includes a targeting assembly having a main body mountable to a weapon and a rail-locking member selectively mountable to the main body. The main body supports at least one of a visual assembly, a power assembly, and a transmission assembly. Communicating with the targeting assembly is a viewing assembly.

A targeting system for visualizing a target includes a targeting assembly having a main body mountable to a weapon and a rail-locking member selectively mountable to the main body. The main body supports at least one of a visual assembly, a power assembly, and a transmission assembly. Communicating with the targeting assembly is a viewing assembly.

A translucent reflective hand gun front sight includes a rectangular top portion of acrylic, polycarbonate or other suitable plastic having a vertical rear wall, a vertical front wall, a reflective horizontal top wall, a top front wall radiused transition portion forming an internal rectangular solid sight bead to be placed on the target when viewed through the vertical rear wall. The rectangular portion also includes a vertical reflective right side wall and a vertical reflective left side wall. Below the side walls are reflective right and left side shoulders extending outwardly and downwardly from the side walls transitioning into reflective lower vertical side portions extending vertically and downward from the shoulders. A lower most mounting base to affix the front sight to the gun is also provided.

Disclosed are methods, circuits, components, apparatus, devices, assemblies and systems for imaging. According to some embodiments, there may be provided a sight for a firearm to assist in aiming the firearm towards a target in a field of view of the sight. A target-view optical assembly introduces additional light information to light passing from an objective-side aperture to a viewing-side aperture. A display array assembly renders and collimates the additional light information coupled into the passing light. And a controller causes a display array of the display array assembly to dynamically render a targeting reticle, wherein a location of the dynamically rendered targeting reticle on the display is a function of a distance to an intended target.

A phosphor screen for a Micro-Electro-Mechanical-Systems (MEMS) image intensifier includes a wafer structure, a lattice of interior walls, a thin film phosphor layer, and a reflective metal layer. The wafer structure has a naturally opaque top layer and an active area defined within the naturally opaque top layer. The lattice of interior walls is formed, within the active area, from the naturally opaque top layer. The thin film phosphor layer is disposed in the active area, between the lattice of interior walls. The reflective metal layer that is disposed atop the thin film phosphor layer. In at least some instances, the thin film phosphor layer is a non-particle phosphor layer.

A firearm heater system for warming a scope of a firearm. The firearm heater system comprising an upper portion, a lower portion, a pocket portion and an edge portion. The upper portion is attached to the pocket portion. The lower portion is attached to the pocket portion. The edge portion is attached to the pocket portion. The edge portion comprise one or more dial apertures. The one or more dial apertures configured to allow access to portions of the scope. The pocket portion comprise a pocket. The pocket is configured to receive a portion of a hand warmer. The firearm heater system configured to wrap around a portion of the scope and hold a portion of the hand warmer against the scope.

A handgun slide has a slide body extending longitudinally and includes sides extending down from a top surface. A proximal end portion of the slide body defines a recess configured to receive a sight assembly. A sight assembly can be installed in the recess of the slide by placing the sight assembly in the recess, followed by securing the assembly to the slide. In its installed configuration, at least part of the sight assembly's point-of-aim indicator is recessed below the top surface of the slide.

A gunsight for aiming a firearm may comprise a display and an eyepiece optic positioned rearward of the display for allowing a user to view the display through the eyepiece optic and a motion sensing module. The eyepiece optic may comprise one or more eyepiece lenses. Circuitry of the gunsight is operatively coupled to the microbolometer and the display. The circuitry may comprise one or more processors and a non-transitory computer readable medium storing one or more instruction sets. In some embodiments, the one or more instruction sets include instructions configured to be executed by the one or more processors to receive a stream of motion signals from the motion sensing module and display an image to the user in response to the stream of motion signals.

A gunsight for aiming a firearm may comprise a display and an eyepiece optic positioned rearward of the display for allowing a user to view the display through the eyepiece optic and a motion sensing module. The eyepiece optic may comprise one or more eyepiece lenses. Circuitry of the gunsight is operatively coupled to the microbolometer and the display. The circuitry may comprise one or more processors and a non-transitory computer readable medium storing one or more instruction sets. In some embodiments, the one or more instruction sets include instructions configured to be executed by the one or more processors to receive a stream of motion signals from the motion sensing module and display an image to the user in response to the stream of motion signals.