A laser scanning system having a laser scanning field, and a laser beam optics module with an optical axis and including: an aperture stop disposed after a laser source for shaping the laser beam to a predetermined beam diameter; a collimating lens for collimating the laser beam produced from the aperture stop; an apodization element having a first and second optical surfaces for extending the depth of focus of the laser beam from the collimating lens; and a negative bi-prism, disposed after the apodization element, along the optical axis, to transform the energy distribution of the laser beam and cause the laser beam to converge to substantially a single beam spot along the far-field portion of the laser scanning field, and extend the depth of focus of the laser beam along the far-field portion of the laser scanning field.

A scanner for scanning an item positioned in a scan volume can include: an electronically switchable mirror configured to switch between a reflective state and a transmissive state, a plurality of mirrors, and a camera having a sensor. In a method for scanning the item, the scanner can repeatedly: switch the switchable mirror from the reflective state to the transmissive state, image a first field of view of the item onto the sensor with light that reflects from at least one mirror and transmits through the switchable mirror, switch the switchable mirror from the transmissive state to the reflective state, and image a second field of view of the item onto the sensor with light that reflects from at least one mirror and reflects from the switchable mirror. In some examples, the scanner can synchronize the switching of the switchable mirror to a frame rate of the sensor.

A system and method for projecting coherent light with reduced diffraction pattern may include a coherent illumination source, structure with an aperture, and focusing lens. The focusing lens may have an object plane defined between the illumination source and structure, such that an illumination signal, such as an indication signal (e.g., green spot, aiming signal, etc.) that is projected through the aperture and onto an image plane does not exhibit a noticeable diffraction pattern, thereby having sharper edges and more perceptible to a user of a system that performs the projection of coherent light. The focusing lens may be in front of, at, integrated with, or behind the structure with the aperture, but the object plane remains between the coherent illumination source and structure with the aperture.