A weapon aiming accessory system, associated components, and associated methods. A secondary aiming accessory can be selectively used in conjunction with a primary aiming accessory to provide magnification of a target. The secondary aiming accessory is movable between stowed and operational positions. The secondary aiming accessory can include one or more aiming points that can be calibrated with respect to a calibrated aiming point of the primary aiming accessory.

A weapon aiming accessory system, associated components, and associated methods. A secondary aiming accessory can be selectively used in conjunction with a primary aiming accessory to provide magnification of a target. The secondary aiming accessory is movable between stowed and operational positions. The secondary aiming accessory can include one or more aiming points that can be calibrated with respect to a calibrated aiming point of the primary aiming accessory.

An optical system includes an aperture stop configured to direct light through the optical system, an inverting prism assembly configured to receive light from the aperture stop and direct light through the optical system, and a field stop configured to receive light from the inverting prism assembly and direct light through the optical system to an operator of the optical system. A point-of-impact is identified in object space and a point-of-aim is identified in afocal space of the optical system. The inverting prism assembly is configured to be pivoted about a center of the aperture stop to effect alignment of the point-of-impact and point-of-aim in the afocal space so that the point-of-aim is coincident with the optical axis.

An optical system includes an aperture stop configured to direct light through the optical system, an inverting prism assembly configured to receive light from the aperture stop and direct light through the optical system, and a field stop configured to receive light from the inverting prism assembly and direct light through the optical system to an operator of the optical system. A point-of-impact is identified in object space and a point-of-aim is identified in afocal space of the optical system. The inverting prism assembly is configured to be pivoted about a center of the aperture stop to effect alignment of the point-of-impact and point-of-aim in the afocal space so that the point-of-aim is coincident with the optical axis.

A reticle for an optical gun sight is provided having a plurality of vertical reference lines which extend below a horizontal reference line.

The grid pattern of vertical reference lines and horizontal reference lines further provide a pattern of at least five vertical lines which extend below a horizontal reference line to a left side of a vertical center line and a second pattern of at least five reference lines which extend below the horizontal reference line and to a right of a vertical center line.

A reticle for an optical gun sight is provided having a plurality of vertical reference lines which extend below a horizontal reference line.

The grid pattern of vertical reference lines and horizontal reference lines further provide a pattern of at least five vertical lines which extend below a horizontal reference line to a left side of a vertical center line and a second pattern of at least five reference lines which extend below the horizontal reference line and to a right of a vertical center line.

A dual-emitter micro-dot sight comprising a sight housing configured to mount to a shooting device, a first and a second light emitter each coupled to the sight housing, a beam combiner, a collimating lens, and a diverging lens. The beam combiner is configured to receive light from each of the first and the second light emitters and to guide the light to an optical path. The collimating lens is in the optical path and is configured to collimate the light from each of the first and the second light emitters. The diverging lens is in the optical path between the beam combiner and the collimating lens, and the diverging lens is configured to spread the light from each of the first and the second light emitters. The dual-emitter micro-dot sight may include windage and elevation adjustment mechanisms that are separate and independent for each of the first and the second light emitters.

A dual-emitter micro-dot sight comprising a sight housing configured to mount to a shooting device, a first and a second light emitter each coupled to the sight housing, a beam combiner, a collimating lens, and a diverging lens. The beam combiner is configured to receive light from each of the first and the second light emitters and to guide the light to an optical path. The collimating lens is in the optical path and is configured to collimate the light from each of the first and the second light emitters. The diverging lens is in the optical path between the beam combiner and the collimating lens, and the diverging lens is configured to spread the light from each of the first and the second light emitters. The dual-emitter micro-dot sight may include windage and elevation adjustment mechanisms that are separate and independent for each of the first and the second light emitters.

There is provided a handgun for aiming at a target. The handgun comprises a handgun body, a slide arranged to move with respect to the handgun body, a lens removably mounted on the slide, and a light source associated with the slide and positioned at the focal point of the lens, such that when a user aims the handgun at the target, light from the light source reflects from the lens to the user's eye, providing an infinity image of an illuminated dot over the target. The lens is removable from both of the slide and the light source.

There is provided a handgun for aiming at a target. The handgun comprises a handgun body, a slide arranged to move with respect to the handgun body, a lens removably mounted on the slide, and a light source associated with the slide and positioned at the focal point of the lens, such that when a user aims the handgun at the target, light from the light source reflects from the lens to the user's eye, providing an infinity image of an illuminated dot over the target. The lens is removable from both of the slide and the light source.