A system includes a light transmitter configured to emit a first light beam. The first light beam includes a primary portion and an amplified spontaneous emission (ASE) portion. The system also includes a host material configured to receive the first light beam and emit a second light. The host material is configured to generate the second light by depopulation of chromophores of one or more dopants in the host material caused by energy of the primary portion of the first light beam. The second light is continuous wave and speckle free.

A system includes a light transmitter configured to emit a first light beam. The first light beam includes a primary portion and an amplified spontaneous emission (ASE) portion. The system also includes a host material configured to receive the first light beam and emit a second light. The host material is configured to generate the second light by depopulation of chromophores of one or more dopants in the host material caused by energy of the primary portion of the first light beam. The second light is continuous wave and speckle free.

The disclosure relates to a micro gunsight, a small laser, a fine-tuning spring, a laser sight device inner core, a reset pin and a laser sight device. which includes a mounting slot that is matched with the gun card track. The mounting slot is composed of a fixed rail and a movable rail. The mounting slot is provided with a gunsight body, and inside the gunsight body is provided with a laser fine-tuning seat. A dual-light laser is installed inside the laser fine-tuning seat, and a fine-tuning mechanism is installed in the laser fine-tuning seat. There are multiple adapters at the bottom of the gunsight body, which are suitable for different Picatinny rails, making the installation position closer to the trigger guard, convenient for users to operate, and avoiding the problem of easy loosening of the front and rear positions of the sight device.

The disclosure relates to a micro gunsight, a small laser, a fine-tuning spring, a laser sight device inner core, a reset pin and a laser sight device. which includes a mounting slot that is matched with the gun card track. The mounting slot is composed of a fixed rail and a movable rail. The mounting slot is provided with a gunsight body, and inside the gunsight body is provided with a laser fine-tuning seat. A dual-light laser is installed inside the laser fine-tuning seat, and a fine-tuning mechanism is installed in the laser fine-tuning seat. There are multiple adapters at the bottom of the gunsight body, which are suitable for different Picatinny rails, making the installation position closer to the trigger guard, convenient for users to operate, and avoiding the problem of easy loosening of the front and rear positions of the sight device.

The invention relates to a remote sensing device comprising a detector with a predefined field of view (FOV); and an emitter emitting pulses of light with an overall divergence angle θ.sub.div in the retinal hazard region which further comprises at least one diffuser wherein the divergence angle after the diffuser is θ.sub.0; and at least one lens configured to transform the light from said diffuser to a determined divergence angle matching the FOV of the detector, or to a virtual image of predefined size appropriate in magnitude given the divergence in order to ensure the most restrictive position regarding eye-safety to be at the same position for pulsed and (quasi-)continuous wave operation; and to emit the transformed light. The invention further discloses a smartphone comprising such a remote sensing device characterized by its improved eye-safety properties for myopic people.

The invention relates to a remote sensing device comprising a detector with a predefined field of view (FOV); and an emitter emitting pulses of light with an overall divergence angle θ.sub.div in the retinal hazard region which further comprises at least one diffuser wherein the divergence angle after the diffuser is θ.sub.0; and at least one lens configured to transform the light from said diffuser to a determined divergence angle matching the FOV of the detector, or to a virtual image of predefined size appropriate in magnitude given the divergence in order to ensure the most restrictive position regarding eye-safety to be at the same position for pulsed and (quasi-)continuous wave operation; and to emit the transformed light. The invention further discloses a smartphone comprising such a remote sensing device characterized by its improved eye-safety properties for myopic people.

Nozzles, nozzle assemblies, and blaster assemblies featuring interchangeable nozzles having externally powered electrical components or accessories. A nozzle assembly may include a body. The body may have a projectile opening defined therethrough. The nozzle assembly may further include an electrical component that is attachable to the body. The nozzle assembly may further include an electrical connection member coupled to the body and the electrical component. The electrical connection member may be configured to electrically connect the electrical component to the blaster.

Nozzles, nozzle assemblies, and blaster assemblies featuring interchangeable nozzles having externally powered electrical components or accessories. A nozzle assembly may include a body. The body may have a projectile opening defined therethrough. The nozzle assembly may further include an electrical component that is attachable to the body. The nozzle assembly may further include an electrical connection member coupled to the body and the electrical component. The electrical connection member may be configured to electrically connect the electrical component to the blaster.

A laser mount for fixedly coupling a laser pointer includes: a first layer; a second layer including a first end and a second end, a connection between the first layer and the first end forming a spring-tensioned hinge, such that deflection of the second end about the connection imparts a spring tension to the second layer, and the second end being spaced apart from the first layer; a first adjustment screw configured to vertically couple the first layer and the second end and to adjust a vertical spring tension between the first layer and the second layer; and a second adjustment screw configured to horizontally couple the first layer and the second end and to adjust a horizontal spring tension between the first layer and the second layer.

A laser mount for fixedly coupling a laser pointer includes: a first layer; a second layer including a first end and a second end, a connection between the first layer and the first end forming a spring-tensioned hinge, such that deflection of the second end about the connection imparts a spring tension to the second layer, and the second end being spaced apart from the first layer; a first adjustment screw configured to vertically couple the first layer and the second end and to adjust a vertical spring tension between the first layer and the second layer; and a second adjustment screw configured to horizontally couple the first layer and the second end and to adjust a horizontal spring tension between the first layer and the second layer.