Application of monolithic polycapillary X-ray lens in focusing of synchrotron radiation

The synchrotron radiation is focused by using a combined system of a monolithic polycapillary X-ray lens and a toroidal mirror. The synchrotron radiation beam with a 2.3 x 26 mm(2) area, whose vertical divergence and transverse divergence are appropriately zero and 1.1 mrad respectively, is first focused into a beam spot with a 0.9 x 0.3 mm(2) area, a 0.1 mrad vertical divergence and a 1.4 mrad transverse divergence by the toroidal mirror. The focused beam spot is then focused by the monolithic polycapillary X-ray lens into a focal spot with a 21.4 mu m diameter. The gain of power flux density in the focal spot of the polycapillary X-ray lens is 59. At 8.0 keV, the transmission efficiency and focal distance of the monolithic polycapillary X-ray lens are 7.9% and 13.3 mm, respectively.