Abstract: An improved roof mirror assembly is provided. The roof mirror assembly of the invention is comprised of first and second mirror panels having first and second reflective surfaces and first and second back portions, respectively, the first and second mirror panels being joined together so that the first and second reflective surfaces are substantially perpendicular to each other, and at least one mounting block to complete the joining together of the first and second mirror panels into the roof mirror assembly and for mounting the assembly onto another structure, the at least one mounting block attached to both the first and second back portions of the mirror panels, wherein the back portions extend along the respective mirror panels in orientations that do not meet or intersect with the reflective surfaces.

Abstract: A lateral-view mirror assembly having a first lateral-view mirror and a second lateral-view mirror coupled to a spoiler of a vehicle and dimensioned to provide a driver of a vehicle with the ability to view objects positioned lateral to a rear portion of the vehicle by looking at a reflection of the objects reflected from the first and second lateral-view mirrors to a rear-view mirror to the driver.

Abstract: A light condenser suitable for EUV lithography that includes reflective rings concentric to an optical axis. Each ring has a reflective surface to reflect light rays emanating from a light source so that the light rays converge towards a mask to produce Köhler illumination on the mask. The reflective surface has a curve segment that includes a section of a parabolic curve that is rotated relative to an optical axis and has a focal point at the light source.

Abstract: The effective coherence of an undulator beamline can be tailored to projection lithography requirements by using a simple single moving element and a simple stationary low-cost spherical mirror. The invention is particularly suited for use in an illuminator device for an optical image processing system requiring partially coherent illumination. The illuminator includes: (i) source of coherent or partially coherent radiation which has an intrinsic coherence that is higher than the desired coherence; (ii) a reflective surface that receives incident radiation from said source; (iii) means for moving the reflective surface through a desired range of angles in two dimensions wherein the rate of the motion is fast relative to integration time of said image processing system; and (iv) a condenser optic that re-images the moving reflective surface to the entrance plane of said image processing system, thereby, making the illumination spot in said entrance plane essentially stationary.

Abstract: An imaging optical system may be capable of forming substantially in one or more second planes one or more complete and/or partial images of one or more objects arranged substantially in one or more first planes and may comprise one or more entrance pupils, at least one of which is located substantially on an opposite side of at least one of the first plane or planes from the imaging optical system exclusive of the at least one entrance pupil so located. Such imaging optical system may be constructed so as to be substantially telecentric on at least a same side thereof as at least one of the second plane or planes.

Abstract: A device is described for observing an infant in a rear facing safety seat located in the rear seat of a motor vehicle. A rear seat mirror has a front reflecting surface and a back surface. A mirror positioning structure is connected to the back surface by a v-shaped arrangement of support surfaces. A mirror attachment assembly includes at least one strap having a secured end connected to at least one of the back surface and the mirror positioning structure, and a free end having a fastener capable of connecting to a tether anchor associated with the rear seat.

Abstract: In an electronic image pickup apparatus, a beam splitter and an image pickup element are incorporated into an optical finder unit together with optical parts used for an optical finder. The optical finder unit includes a finder case for receiving the optical parts used for the optical finder and a holding member for holding the beam splitter and the image pickup element. The image pickup element has an image pickup surface which is inclined to the light beams incident upon the beam splitter. The light beam incident upon the image pickup element is reflected twice in the beam splitter, while the light beam incident upon the optical finder penetrates the beam splitter without being reflected.

Abstract: An optical system having a pair of ellipsoidal shaped reflective surfaces or mirrors which receive light from an object and provide wide field view imaging for the object. The optical system directs the light onto a flat detector to a record a wide field of view image of the object on the flat detector.

Abstract: The invention provides a telescope system for inputting an image and presenting the image to a user. The telescope system includes a first array of flat mirrors including a plurality of first mirrors, the image, being light information, incident upon and reflected by each of the first array of mirrors; a primary reflecting curved mirror, each of the first mirrors reflecting light information onto the primary reflecting curved mirror; and a light collection portion, the light collection portion collecting and combining light information, originating from each of the first mirrors, so as to present a viewable image.

Abstract: Disclosed herein is an apparatus for generating a parallel beam with a high flux. The apparatus of the present invention includes a light source, a first mirror and a second mirror. The light source is positioned at a first focal point of a first ellipse. The first mirror is positioned on the first ellipse to reflect a beam emitted by the light source, and concavely shaped to conform to a section of the first ellipse. The second mirror is positioned across a path of the beam reflected by the first mirror, and convexly shaped to conform to a section of a second ellipse so that an angle formed by two tangent lines passing through each pair of incident points of neighboring rays incident upon the second mirror, respectively, is half of an angle formed by two tangent lines passing through each pair of incident points of neighboring rays incident upon the first mirror, respectively.

Abstract: An illumination system and condenser for use in photolithography in the extreme ultraviolet wavelength region has a first non-imaging optic element collecting electromagnetic radiation from a source and creates a desired radiance distribution. A second non-imaging optic element receives the electromagnetic radiation from the first non-imaging optic element and redirects and images the electromagnetic radiation. The electromagnetic radiation from the second non-imaging optic element is suitable for being received by other conventional optical surfaces to provide a desired radiance distribution with a desired angular distribution and desired shape. Facets are used to provide the desired illumination over the desired illumination field. Reflective facets may be placed on the second non-imaging optic, which can reduce the number of mirrors and increase efficiency.

Abstract: The invention provides a reflective optical element which has three or more reflecting surfaces by which a light flux from an object is successively reflected. In an area enclosed by each of the reflecting surfaces, the reference axis intersects at least two times and the light flux forms an intermediate image. The reference axis is a path of the light beam which passes through the center of an object surface, is then reflected by the reflecting surfaces, and passes through a center of a pupil. The reflective optical element satisfies the following condition: 4·f·tan&thgr;<ea wherein &thgr; is a maximum field angle that passes through the pupil in a plane that includes the reference axis, f is a focal length of an optical part between the pupil and an intermediate-image forming surface, and ea is a maximum optical effective diameter of the reflective optical element.

Abstract: A reflector for a precision optical device is provided. The reflector comprises a reflective surface, a back surface, a thickness between the reflective surface and the back surface defining an edge of the reflector, at least one mounting pad located along at least a portion of the edge of the reflector for adhesion to a portion of the precision optical device, and a mounting pin extending from another portion of the edge of the reflector for adhesion within a hole in the precision optical device.

Abstract: A forward looking mirror device is disclosed which is useful for vehicles having side mounted rear view mirrors. The forward looking mirror device consists of first and second mirrors which are pivotally mounted in a housing, the first mirror moveable to collect an image from the front of the vehicle and the second mirror moveable to reflect the image from the first mirror to the driver. The first and second mirrors are mounted adjacent the rear view mirror of the vehicle. The second mirror is separated from the rear view mirror by a distance which is pre-selected to prevent the driver from focussing on both the rear view mirror and the second mirror simultaneously. The mirror assembly is mounted to the vehicle by adjustable arms, the length of said arms being adjustable to position the second mirror at the driver's eye level.

Abstract: An improved lateral transfer retroreflector assembly is provided. The lateral transfer retroreflector assembly of the invention comprises a first segment comprising a mirror panel housing, a second segment comprising a roof mirror housing, and a third segment comprising an off-the-shelf connecting member between the two housings. The mirror panel housing will have mounted thereto a mirror panel. The roof mirror housing will have mounted thereto a roof mirror assembly, and the connecting member will be mounted between the mirror panel housing and the roof mirror housing. The off-the-shelf aspect of assembling the connecting allows the assembly to be built to customer specifications, thereby allowing for customized creation of lateral transfer retroreflectors, but at a time and cost savings to the customer.

Abstract: A light source with multiple parallel beams is combined with a pair of opposing mirrors mounted on a rotating fixture and with a fixed aperture to produce a single output beam. Through the motion of the rotating fixture, the pair of mirrors shifts the location of the output of each input beam passing through the device so as to sequentially channel each beam into the optical path defined by the aperture. Thus, the input source corresponding to the output beam may be quickly switched by rotating the pair of mirrors to the position that produces the appropriate shift of the beam selected from the light source. In another embodiment of the invention, the pair of opposing mirrors is replaced by a transparent block similarly mounted on a rotating fixture.

Abstract: &lgr;UVt sampling is employed to achieve high resolution imagery without sub-wavelength system tolerances. An exemplary application is a 20 meter outside diameter orbiting, earth-watching ring telescope utilizing 40 identical commercial, off-the-shelf (COTS)-grade convex primary mirrors of 80 cm diameter each. Its nominal orbit is geosynchronous, with a designed ground resolution of approximately 1 m at 500 nm. It is configured such that there is no macro-structure pointing, where the primary mirrors are solely responsible for gross target pointing and no phasing whatsoever. The overall wavefront error budget is on the order of &lgr; or even worse, rather than the more traditional &lgr;/10.

Abstract: A catadioptric projection objective which images a pattern arranged in an object plane into an image plane, with the production of a real intermediate image, has between the object plane and the image plane a catadioptric first objective portion and a concave mirror and a ray deflecting device and behind the ray deflecting device a dioptric second objective portion. The ray deflecting device has a preferably fully reflecting first reflecting surface for the deflection of the radiation coming from the object plane to the concave mirror. Positive refractive power is arranged behind the first reflecting surface and between this and the concave mirror, in an optical neighborhood of the object plane in which the principal ray height of the outermost field point of the radiation coming from the object is greater than the marginal ray height.

Abstract: A variable dispersion compensator comprising: an optical incidence/output device for propagating wavelength division multiplexed light; an optical multiple reflector on which the wavelength division multiplexed light emitted from the optical incidence/output device is incident for repetitive reflections; and an optical reflection device for reflecting the wavelength division multiplexed light emitted from the optical multiple reflector toward the optical multiple reflectors, the device composed of a second lens and a reflecting element and being capable of controlling the distance from the optical multiple reflector. A temperature adjusting element and a temperature detecting element are arranged via a thermal-conductive elastic member on a surface of the optical multiple reflector at a portion where no drop occurs in the intensity of the wavelength division multiplexed light incident/emitted. The temperature of the optical multiple reflector is controlled by a controller.

Abstract: A lateral-view mirror assembly capable of providing a driver of a vehicle with the ability to view objects positioned lateral to a rear portion of the vehicle by looking at a reflection of the objects reflected from lateral-view mirrors to a rear-view mirror to the driver. The two lateral-view mirrors are placed apart on a rear portion of a vehicle, with a first lateral-view mirror placed between a center portion and a driver's side of a top surface of a rear portion of a vehicle and a second lateral-view mirror placed between a center portion and a passenger's side of a top surface of a rear portion of a vehicle.

Abstract: A condenser for a photolithography system, in which a mask image from a mask is projected onto a wafer through a camera having an entrance pupil, includes a source of propagating radiation, a first mirror illuminated by the radiation, a mirror array illuminated by the radiation reflected from said first mirror, and a second mirror illuminated by the radiation reflected from the array. The mirror array includes a plurality of micromirrors. Each of the micromirrors is selectively actuatable independently of each other. The first mirror and the second mirror are disposed such that the source is imaged onto a plane of the mask and the mirror array is imaged into the entrance pupil of the camera.

Abstract: The invention provides an ultra-high numerical aperture imaging device (1) comprising two rotationally symmetric curved mirrors (11b, 12b), which can be used to achieve very high concentrations of light or other sorts of wave (or other sorts of physical entities that satisfy equivalent “ballistic”equations of motion) or can be used in reverse to form a beam that has a small angle spread, and which can be combined with a further plane, partially transparent mirror (if necessary with additional components to attenuate and rotate the polarisation of the waves involved), to create a device able to achieve a materially better resolution than that implied by the traditional Rayleigh resolution criterion. A detailed method for designing such a device is also disclosed.

Abstract: An optical imaging system for imaging at least two planes of a light beam spaced apart in the beam direction, in particular of a laser light beam, onto a common target site, for example a detector, has at least one optically imaging element arranged in the beam path of the light beam. The at least one optically imaging element is a collecting primary mirror, and arranged downstream of the primary mirror are at least two secondary mirrors that can be brought alternately into the beam path, the secondary mirrors being designed such that one secondary mirror permits imaging of one plane, and the other secondary mirror permits imaging of the other plane of the light beam onto the target site in each case.

Abstract: There is provided a microlithographic projector lens for EUV-lithography with a wavelegth in a range of 10-30 nm, an incident aperture diaphragm and an emergent aperture diaphragm for the transformation of an object field in an object plane into an image field in an image plane. The invention has a microlithographic projector lens that includes a first, second, third, fourth, fifth, sixth, seventh and eighth mirror, and a beam path from the object plane to the image plane that is free from obscuration.

Abstract: A retroreflector has three mutually-orthogonal reflective surfaces arranged around an optical axis. The reflective surfaces stop short of the optical axis to provide a central region of the retroreflector which transmits incident light and a peripheral region of the retroreflector which retroreflects incident light. When the reflector is used in a Jamin-type interferometer with another reflector, this enables the interferometer to be used for measuring displacement between the reflectors. In the interferometer, a projected beam is disposed between a pair of return beams and/or one of the return beams is disposed between a pair of the projected beams. This enables a first contiguous area of a face of a beam splitter to be provided with a phase-shifting coating to produce a phase quadrature relationship between a pair of interferogram beams. This simplifies the masking required when applying the coating.

Abstract: An optical architecture for observation telescopes, in particular for telescopes intended to be installed on board a vehicle, such as a space satellite, for observing terrestrial areas, includes a concave and off-axis mirror which is aspherical or possibly spherical and reflects in the form of a convergent beam a beam consisting of radiation that it receives from a terrestrial area that it is observing, a dioptric and achromatic aperture correction plate inserted on the path of the convergent beam reflected by the mirror, a dioptric and achromatic field correction plate inserted on the path of the convergent beam reflected by the mirror on the downstream side of the aperture correction plate relative to the mirror, and a pupil on the path of the reflected convergent beam to obtain an off-axis field of view preventing central obscuration. It constitutes a simple way of imaging stereoscopically.

Abstract: Use of a filter in lieu of a secondary reflector in a reflective telescope provides compact design that eliminates the obstruction caused by the secondary reflector. The filter is selectively reflective to either the angle of incidence of radiation striking the filter or to the polarization exhibited by the radiation. An angularly sensitive filter may be constructed to either a bandpass filter or a short pass filter. A filter that is sensitive to polarization is constructed from a cholesteric liquid crystal. The filter is disposed in front of a primary reflector that comprises an aperture for collecting radiation observed by the telescope.

Abstract: This invention pertains to a multipass retroreflector and to a method for its operation. In a preferred embodiment, the retroreflector comprises three reflecting surfaces arranged at an angle to each other in the form of a prism that is triangular in cross-section and 1 to 2 ports through which an optical beam enters and/or exits. The method includes the step of admitting an optical beam into the retroreflector where the optical beam is reflected from the reflecting surfaces and exits parallel to the path of the incoming optical beam. The method also includes the steps of spacing and adjusting angular disposition and dimensions of the reflecting surfaces in order to change path length of the optical beam passing through the retroreflector. This spacing can be continuously scanned causing a large change in optical path length due to a small change in the position of the moving surface.

Abstract: A lens design having two concave mirrors or Mangins and a turning mirror is disclosed. The optical axis of the concave elements are approximately coplanar and intersect on a turning mirror, and the normal to the surface of the turning mirror bisects the angle between the two optical axis.

Abstract: An optical element includes plural multilayer mirrors, wherein the multilayer mirrors are renewable.

Abstract: A concave mirror optical system for a scanner and a method for compensating image distortion. In this invention, the more expensive lens assembly in a conventional optical system is replaced by a concave mirror made from simple low-cost material so that production cost and chromatic dispersion are reduced. Moreover, different magnifications can be obtained due to a difference in focusing power of the concave mirror along XY axis direction.

Abstract: A strain-isolated mirror is made from a substrate having first and second body portions. First and second connecting portions extend across a gap between the first body portion and the second body portion. A first flexural hinge on the first second connecting portion couples the second connecting portion to the first body portion.

Abstract: A system and method for simultaneous imaging of both infrared and millimeter wave radiation. The novel optical system (10) includes a primary mirror (20), a Mangin secondary mirror (30) positioned to receive energy reflected from the primary mirror (20), and an immersion lens (40) for focusing energy received from the Mangin mirror (30). In the illustrative embodiment, the primary mirror (20) and Mangin mirror (30) are arranged in a Cassegrain configuration. Central to this invention is the use of a negative power refractive Mangin mirror (30) as the Cassegrain secondary mirror, so that the field curvature of the secondary mirror (30) and immersion lens (40) can be made to cancel. The immersion lens (40) effectively decreases the wavelength of the millimeter wave radiation, allowing a smaller detector to collect the same amount of radiation as would a larger detector in air.

Abstract: A module of reflection mirrors of L-shape according to the invention, arranged in an optical chassis of scanner, is comprised of a first L-shaped mirror and a second L-shaped mirror. The recession portions for the second L-shaped mirror and the first L-shaped mirror are corresponded to each other in the space. After entering the module with a specific angle, an incident light is reflected several times between the two L-shape mirrors before it leaves the module with another angle again. Wherein, there are a first reflection zone and a second reflection zone at the recession portion of the first L-shaped mirror, and there are a third reflection zone and a fourth reflection zone at the recession portion of the second L-shaped mirror.

Abstract: A system for multiple mode imaging is disclosed herein. The system is a catadioptric system preferably having an NA greater than 0.9, highly corrected for low and high order monochromatic aberrations. This system uses unique illumination entrances and can collect reflected, diffracted, and scattered light over a range of angles. The system includes a catadioptric group, focusing optics group, and tube lens group. The catadioptric group includes a focusing mirror and a refractive lens/mirror element. The focusing optics group is proximate to an intermediate image, and corrects for aberrations from the catadioptric group, especially high order spherical aberration and coma. The tube lens group forms the magnified image. Different tube lens groups can be used to obtain different magnifications, such as a varifocal tube lens group to continuously change magnifications from 20 to 200×. Multiple imaging modes are possible by varying the illumination geometry and apertures at the pupil plane.

Abstract: A reading optical system that forms the image of the original document on a one-dimensional imaging element, such system comprising multiple reflective surfaces only, wherein at least one of such surfaces is a free-form surface that has a symmetrical surface relative to the main scanning direction and no symmetrical surface relative to the sub scanning direction. Where the light beam that passes through the center of the original document and the center of the aperture is deemed the axial main light beam, the path of the axial main light beam that strikes the first reflective surface extends along the Z-axis, the length of the one-dimensional imaging element extends along the Y-axis, and the X-axis extends perpendicular to the Y-axis and the Z-axis, each reflective surface is arranged such that it is tilted relative to the Y-axis.

Abstract: An optical, image producing device of the Camera Lucidas type is provided wherein the panel on which the optical image is superimposed may be supported at different angles of inclination on a base, to which a mirror assembly carrying column is rigidly attached, so that the inclination of the panel can be adjusted allowing the device to be used tilted to observe an object at different elevations. The column has a viewing aperture which is wide enough for an image to be viewed simultaneously by both eyes to give a panoramic view.

Abstract: Techniques for generating partially coherent radiation and particularly for converting effectively coherent radiation from a synchrotron to partially coherent EUV radiation suitable for projection lithography.

Abstract: A modularized light-guiding apparatus and manufacturing method, which may make the light of a light source proceed at least twice light reflections of predetermined directions. The light-guiding apparatus includes a plurality of modularized reflection elements, which may be differentiated to several different types of reflection element. Each type of each reflection element all has substantially same adjoining device and edge size for providing to be adjoined and piled-up with another reflection element. But, the reflection element of different type individually has different number of reflection plane for providing the light to proceed different times of light reflection. It may determined the light reflection times and light-path length for the light-guiding apparatus, by choosing several different types of reflection element among plural reflection elements to proceed the piling-up for the light-guiding apparatus.

Abstract: A reflection type projection optical system includes six mirrors that serve substantially as a coaxial system, and include, in order from an object side to an image side, a first mirror, a second mirror, a third mirror, a fourth mirror, a fifth mirror, and a sixth mirror to sequentially reflect light, wherein the reflection type projection optical system serves as an imaging system that forms an intermediate image along an optical path between the third mirror and the fifth mirror, and wherein a displacement direction of a principal ray viewed from an optical axis from the first mirror to the second mirror is reverse to that from the third mirror to the sixth mirror.

Abstract: A cataoptric projection optical system for projecting a pattern on an object surface onto an image surface and for serving as an imaging system that forms an intermediate image includes first, second, third and fourth mirrors serving substantially as a coaxial system so as to sequentially reflect light from an object side to an image side, and being arranged so that light from the object surface to the first mirror may intersect light from the second mirror to the third mirror.

Abstract: &lgr;UVt sampling is employed to achieve high resolution imagery without sub-wavelength system tolerances. An exemplary application is a 20 meter outside diameter orbiting, earth-watching ring telescope utilizing 40 identical commercial, off-the-shelf (COTS)-grade convex primary mirrors of 80 cm diameter each. Its nominal orbit is geosynchronous, with a designed ground resolution of approximately 1 m at 500 nm. It is configured such that there is no macro-structure pointing, where the primary mirrors are solely responsible for gross target pointing and no phasing whatsoever. The overall wavefront error budget is on the order of &lgr; or even worse, rather than the more traditional &lgr;/10.

Abstract: &lgr;UVt sampling is employed to achieve high resolution imagery without sub-wavelength system tolerances. An exemplary application is a 20 meter outside diameter orbiting, earth-watching ring telescope utilizing 40 identical commercial, off-the-shelf (COTS)-grade convex primary mirrors of 80 cm diameter each. Its nominal orbit is geosynchronous, with a designed ground resolution of approximately 1 m at 500 nm. It is configured such that there is no macro-structure pointing, where the primary mirrors are solely responsible for gross target pointing and no phasing whatsoever. The overall wavefront error budget is on the order of X or even worse, rather than the more traditional &lgr;/10.

Abstract: A three piece interior rear view mirror assembly for a vehicle having an upper mirror and a lower mirror, and a lower left and a lower right mirror independently mounted beneath the upper mirror. The left and right mirrors are disposed at a position between the upper mirror and the windshield. The upper, right and left mirrors are each independently adjustable on socket and sphere mountings. The entire rear view mirror assembly is further mounted on sphere and socket mountings adjacent the windshield of the vehicle.

Abstract: A module of reflection mirrors of L-shape according to the invention, arranged in an optical chassis of scanner, is comprised of a first L-shaped mirror and a second L-shaped mirror. The recession portions for the second L-shaped mirror and the first L-shaped mirror are corresponded to each other in the space. After entering the module with a specific angle, an incident light is reflected several times between the two L-shape mirrors before it leaves the module with another angle again. Wherein, there are a first reflection zone and a second reflection zone at the recession portion of the first L-shaped mirror, and there are a third reflection zone and a fourth reflection zone at the recession portion of the second L-shaped mirror.

Abstract: An optical, image producing device of the Camera Lucidas type is provided wherein the panel on which the optical image is superimposed may be supported at different angles of inclination on a base, to which a mirror assembly carrying column is rigidly attached, so that the inclination of the panel can be adjusted allowing the device to be used tilted to observe an object at different elevations. The column has a viewing aperture which is wide enough for an image to be viewed simultaneously by both eyes to give a panoramic view.

Abstract: An Optic Reflection device, for application as Reflectors in the Light Track of optic installations, more specifically, as Reflector for single or multiple reflections in the scanner, apparatus of optics industry. Designed trapezoidal as opposed to rectangular or otherwise configuration pursuant to prior arts. In a preferred embodiment, the application is in the form of a reflector of single reflection to incident light beam; in another preferred embodiment, the application is in the form of reflector permissive of multiple reflections. Design pursuant to the trapezoidal optic reflector pertaining to the invention can substantially reduce space required of Light Track in an optic system, and therefore commensurably volume and weight claimed in the entire optic system, which facilitates compact design of the products and installation of other devices or utilities in the space so saved in the entire optic system.

Abstract: A projection lens for imaging a pattern arranged in an object plane onto an image plane using electromagnetic radiation from the extreme-ultraviolet (EUV) spectral region has several imaging mirrors between its object plane and image plane that define an optical axis of the projection lens and have reflective coatings. At least one of those mirrors has a graded reflective coating that has a film-thickness gradient that is rotationally symmetric with respect to a coating axis, where that coating axis is acentrically arranged with respect to the optical axis of the projection lens. Providing at least one acentric, graded, reflective coating allows designing projection lenses that allow highly uniform field illumination, combined with high total transmittance.

Abstract: An improved optical apparatus and system for producing a three-dimensional real image of an object. The apparatus includes a support member, a first concave reflective surface affixed to the support member and having an associated focal length, and a second concave reflective surface affixed to the support member. The first concave reflective surface and the second concave reflective surface are placed in substantially fixed spatial relationship to each other to define an acute angle so that when the object is appropriately placed further than the focal length of the first concave reflective surface, the apparatus produces a three-dimensional real image of the object.

Abstract: A reading optical system that forms the image of the original document on a one-dimensional imaging element, such system comprising multiple reflective surfaces only, wherein at least one of such surfaces is a free-form surface that has a symmetrical surface relative to the main scanning direction and no symmetrical surface relative to the sub scanning direction. Where the light beam that passes through the center of the original document and the center of the aperture is deemed the axial main light beam, the path of the axial main light beam that strikes the first reflective surface extends along the Z-axis, the length of the one-dimensional imaging element extends along the Y-axis, and the X-axis extends perpendicular to the Y-axis and the Z-axis, each reflective surface is arranged such that it is tilted relative to the Y-axis.