Aspects and examples are generally directed to broadband optical systems and methods for collecting a wide spectral range of electromagnetic radiation with a single window optical assembly. In one example, a broadband optical system includes a segmented window positioned to receive electromagnetic radiation, the segmented window including at least a first segment formed from a first material and a second segment formed from a second material, the first segment being configured to transmit a first spectral band of the electromagnetic radiation along an optical path and the second segment being configured to transmit a second spectral band of the electromagnetic radiation along the optical path. The broadband optical system may include an optical de-multiplexer configured to spatially separate the first and second spectral bands, and foreoptics interposed between the segmented window and the optical de-multiplexer to direct the electromagnetic radiation from the segmented window to the optical de-multiplexer.

A structure light module comprises: a VCSEL substrate comprising a VCSEL array comprising a plurality of individual VCSELs; a first spacer disposed on the VCSEL substrate; a first wafer level lens comprising a glass substrate and at least a replicated lens on a first surface of the glass substrate disposed on the first spacer; a FOE disposed on the first wafer level lens; a second spacer disposes on the FOE; a second wafer level lens comprising a glass substrate and at least a replicated lens on a first surface of the glass substrate disposed on the second spacer; a third spacer disposed on the second wafer level lens; a DOE disposed on the third spacer, where a structure light is projected from the DOE on a target surface for 3D imaging.

The present invention provides a reflective wide-angle lens having a large aperture (for example, FNO 1.7) and a small projection ratio (for example, TR0.2). The reflective wide-angle lens reduces lens size and reduces the number of lenses required while achieving a clear focus on a wide range of screen sizes. The reflective wide-angle lens comprises a front lens group and a rear lens group. The front lens group comprises a first lens group and two second lens group. The rear lens group comprises a curved mirror. The first lens group comprises at least a triple cemented lens, an aspherical lens, and two spherical lenses. The second lens group comprises at least two aspherical lenses and two spherical lenses. The curved mirror is a concave optical symmetric aspheric mirror.

An optical system configured to guide a light beam from a display element includes a positive lens, a negative lens, and an optical element having at least three optical surfaces. The light beam from the display element is reflected a plurality of times inside the optical element via the positive lens and the negative lens, and then travels to an exit pupil. A predetermined condition is satisfied.

A freeform folded optical system that include two freeform prisms with optical power. At least one of the freeform prisms is configured to fold the optical axis twice. Thus, embodiments of the freeform folded optical system fold the optical axis three or four times. Folding the optical axis three or four times in the freeform prisms allows for long focal lengths required for telephoto lens applications without requiring additional lens elements between the prisms. In addition, the configuration of the freeform folded optical system provides reduced Z-axis height when compared to conventional folded lens systems with similar optical characteristics.

Projection optical system for forming an image on a substrate and including an illumination relay lens and a projection lens each of which is a catadioptric system. The projection lens may include two portions in optical communication with one another, the first of which is dioptric and the second of which is catadioptric. In a specific case, the projection optical system satisfies $4<\frac{.Math.{}_I.Math.}{.Math.{}_T.Math.}<30,$
where .sub.I and .sub.T are magnifications of the first portion and the overall projection lens. Optionally, the projection lens may be structured to additionally satisfy $6<\frac{.Math.{}_{\mathrm{II}}.Math.}{.Math.{}_T.Math.}<20,$
where .sub.II is a magnification of the second portion. A digital scanner including such projection optical system and operating with UV light having a spectral bandwidth on the order of 1 picometer. Method for forming an image with such projection optical system.

A virtual image optical system includes first and second optical elements and each configured to guide light from a display unit, wherein the second optical element guides the light from the display unit to a first pupil to form a first virtual image, and the second optical element simultaneously guides the light from the display unit to a second pupil to form a second virtual image, and wherein decentering of the second optical element enables switching of positions of the first pupil and the second pupil to each other.

A given image is displayed by generating a succession of partial real images, each representing part of the given image and together representing the given image, and at least some of the partial real images occupying overlapping positions. The partial real images are successively imaged to form a sub-image viewable from an eye position. The sub-images combine spatially and temporally to form a virtual image viewable from the eye position so that said overlapping portions of different partial real images form different portions of the virtual image. The partial real images may be displayed on a digital or other display, and imaged by optical channels each using one or more lenslets.

An optical apparatus includes plural optical lens groups with a specified field of view and an optical sensor accommodated and fixed within a casing. After a light beam passes through any of the plural optical lens groups, its travelling direction is changed, and it is sensed by the optical sensor and converted into an image signal by the optical sensor. The optical apparatus has a single optical lens module of minimized volume and is able to implement different optical functions simultaneously. Consequently, the fabricating cost of the optical apparatus is reduced, the assembling process is simplified, and the number of components to be assembled is reduced.

A display device has a display to generate a real image. An optical system has lenslets, each generating a virtual sub-image from a respective partial real image on the display, by each lenslet projecting light from the display to an eye position. The sub-images combine to form a virtual image viewable from the eye position. At least one of the lenslets is an RXIR lenslet, in which the light rays from the display to the eye position are deflected sequentially at least four times by a refraction (R), a reflection (X), a total internal or metallic reflection (I), and a refraction (R) in that order.