Patent Number: 049842595
Section: claims

1. An X-ray exposure apparatus comprising: an X-ray source;  a reflecting mirror having a reflecting surface for deflecting an X-ray beam radiated from said X-ray source to an object;  means for rotating said reflecting mirror having said reflecting surface about an axis of rotation, said axis of rotation being disposed apart from said reflecting surface;  said reflecting surface being configured with a shape so that an angle of grazing incidence of said X-ray beam is maintained at a constant value when said reflecting mirror rotates about said axis of rotation; and  means for scanning said object with said X-ray beam by rotating said reflecting mirror about said axis of rotation by means of said rotating means.  an X-ray source;  a reflecting mirror having a reflecting surface for deflecting an X-ray beam radiated from said X-ray source to an object, wherein the shape of said reflecting surface is configured by connecting points P.sub.0 P.sub.1, P.sub.3, P.sub.3, . . . P.sub.i, . . . P.sub.n, in an area of x'&gt;0, and points P.sub.0, P.sub.-1, P.sub.-2, P.sub.-3, . . . P.sub.-i, . . . P.sub.-n, in an area of x'&lt;0 smoothly in an x'-y' coordinate system which points P.sub.i are defined in two coordinate systems so that one of the two coordinate systems is a rectangular coordinate system fixed to said reflecting surface in a plane including said X-ray beam which coordinate system has an origin P.sub.0 on said reflecting surface, an x' axis represented by a tangent at said origin P.sub.0 and a y' axis represented by a normal at said origin P.sub.0, and the outer of the two coordinate systems is a rectangular coordinate system fixed to a space including a plane defined with said tangent at said origin P.sub.0 and said X-ray beam having a grazing incidence angle of .alpha. with respect to said tangent, which coordinate system has said origin P.sub.0 as an origin, an x axis represented by the same incident direction of said X-ray beam and a y axis represented by a direction perpendicular to said X-ray beam, and the center of rotation of said reflecting mirror is disposed apart from said reflecting surface and is represented as (x.sub.c, y.sub.c) in said x-y coordinate system, and said origin P.sub.0 is represented as (0,0) in said x'-y' coordinate system and coordinates (x'.sub.Pi, y'.sub.Pi) of said points P.sub.i are obtained by solving the following equation EQU A.theta..sub.i.sup.2 +B.theta..sub.i +C=0 EQU where A=1/2(y.sub.c cos.alpha.-x.sub.c sin.alpha.-y'.sub.Pi-1) EQU B=x.sub.c cos.alpha.+y.sub.c sin.alpha.-x'.sub.Pi-1 EQU C=r.sub.i sin.alpha.+y'.sub.P-1 EQU x'.sub.Pi ={(r.sub.i -x.sub.c)cos.theta..sub.i +y.sub.c sin.theta..sub.i +x.sub.c }cos.alpha.+{-y.sub.c cos.theta..sub.i +(r.sub.i- x.sub.c)sin.theta..sub.i +y.sub.c }sin.alpha. EQU y'.sub.Pi ={-y.sub.c cos.theta..sub.i -(r.sub.i -x.sub.c)sin.theta..sub.i +y.sub.c }cos.alpha.-{(r.sub.i -x.sub.c)cos.theta..sub.i +y.sub.c sin.theta..sub.i+ x.sub.c }sin.alpha. EQU r.sub.i =i .multidot..DELTA.r  wherein .DELTA.r represents a small distance, and the sign i is successively replaced as shown i=0, 1, 2, 3, . . . , n and i=-1, -2, -3, . . . , -n;  means for rotating said reflecting mirror having said reflecting surface about an axis of rotation extending perpendicular to the plane defined by said x-y coordinate system and passing through said coordinate (x.sub.c, y.sub.c); and  means for scanning said object with said X-ray beam by rotating said reflecting mirror by means of said rotating means.  an X-ray source;  a reflecting mirror having an off-axis paraboloidal surface for deflecting an X-ray beam radiated from said X-ray source to an object;  means for rotating said reflecting mirror having said off-axis paraboloidal surface about an axis of rotation, said axis of rotation being disposed apart from said off-axis paraboloidal surface;  said off-axis paraboloidal surface being configured with a shape so that an angle of grazing incidence of said X-ray beam is maintained at a substantially constant value when said reflecting mirror rotates about said axis of rotation; and  means for scanning said object with said X-ray beam by rotating said reflecting mirror about said axis of rotation by means of said rotating means. 2. An X-ray exposure apparatus according to claim 1, wherein said reflecting surface of said reflecting mirror defines at least approximately an off-axis paraboloidal surface, the focal point of which coincides with the position of said X-ray source. 3. An X-ray exposure apparatus according to claim 1, wherein said means for rotating said reflecting mirror is constituted by at least two linear motion mechanisms one of which supports said reflecting mirror at a portion thereof located near to said X-ray source through an elastic member, while the other linear motion mechanism supports said reflecting mirror at a portion thereof located near to said object through an elastic member, said linear motion mechanisms being driven separately from each other such that said reflecting mirror can undergo the same motion equivalent to the rotation about said axis of rotation. 4. An X-ray exposure apparatus according to claim 2, wherein said means for rotating said reflecting mirror is constituted by at least two linear motion mechanisms one of which supports said reflecting mirror at a portion thereof located near to said X-ray source through an elastic member, while the other linear motion mechanism supports said reflecting mirror at a portion thereof located near to said object through an elastic member, said linear motion mechanisms being driven separately from each other such that said reflecting mirror can undergo the same motion equivalent to the rotation about said axis of rotation. 5. An X-ray exposure apparatus comprising: 6. An X-ray exposure apparatus comprising: