Patent Number: 055240402
Section: claims

1. A monochromator for limiting the bandpass of radiation comprising: a first asymmetrical silicon crystal having low order reflection and including first and second spaced, facing, inner surfaces defined by a first channel therein, wherein said first silicon crystal is adapted to receive and collimate diverging radiation incident on the first surface thereof;  a second symmetrical silicon crystal disposed intermediate the first and second inner surfaces of said first silicon crystal and having third and fourth spaced, facing inner surfaces defined by a second channel therein, wherein said incident radiation on the first surface of said first silicon crystal is reflected onto the first and second surfaces of said second silicon crystal and thence onto the second surface of said first silicon crystal, and wherein radiation reflected by the second surface of said first silicon crystal from said second silicon crystal has a bandwidth less than a bandwidth of the incident radiation; and  supporting means including first and second rotation stages respectively coupled to and supporting said first and second silicon crystals for maintaining said crystals in fixed relative position and orientation during operation while permitting changes in the relative position and orientation of said crystals, wherein each of said rotation stages includes, in combination, a respective piezo inchworm drive angle encoder and kinematic mount coupled to and supporting a respective crystal for rotationally displacing and providing an indication of the relative angular orientation of said first and second crystals. 2. The monochromator of claim 1 wherein first silicon crystal is a (4 2 2) crystal and said second silicon crystal is a (10 6 4) crystal. 3. The monochromator of claim 2 wherein said first and second crystals form a (+m, +n, -n, -m) crystal arrangement. 4. The monochromator of claim 3 wherein said first and second crystals are cut in an angle .delta. relative to their respective diffracting planes, where .delta.=20.degree.. 5. The monochromator of claim 1 further comprising a tilt stage coupled to one of said crystals for tilting one crystal relative to the other in facilitating alignment of said crystals. 6. The monochromator of claim 1 further comprising first and second thermisistors respectively attached to said first and second crystals and coupled to a respective inchworm drive for compensating for variations in temperature in the monochromator. 7. The monochromator of claim 1 further comprising a unitary support frame coupled to said first and second rotation stages.