Patent Number: 061608653
Section: claims

1. A synchrotron radiation measuring system for measuring synchrotron radiation from a synchrotron radiation ring, the synchrotron radiation having a beam profile with an intensity distribution that is variable in accordance with at least one of an accumulated current value and a vacuum level of the synchrotron radiation ring, said system comprising: an X-ray detector movable in a direction of the intensity distribution of the synchrotron radiation in order to follow a shift of the synchrotron radiation, said X-ray detector detecting the synchrotron radiation and outputting a signal based on the detected synchrotron radiation; and  computing means for computing an intensity of the synchrotron radiation based on the signal of said X-ray detector and for reserving therein, taking into account variations of the intensity distribution of the synchrotron radiation due to a chance in the accumulated current value, one of (i) a relation between the signal of said X-ray detector and the intensity distribution of the synchrotron radiation and (ii) a relation among the signal of said X-ray detector, the vacuum level, and the intensity distribution of the synchrotron radiation.  a synchrotron radiation intensity measuring system as recited in any one of claims 1-4; and  control means for controlling exposure amount on the basis of measurement by said measuring system.  preparing an X-ray exposure apparatus as recited in claim 5; and  performing an exposure process by use of the X-ray exposure apparatus. 2. A system according to claim 1, wherein said computing means reserves therein a relation between a signal of said X-ray detector and the intensity distribution of synchrotron radiation, and wherein, when the intensity distribution of synchrotron radiation is I and the output of said X-ray detector is v, the relation satisfies a condition: EQU I(v)=a.sub.0 +a.sub.1 v+a.sub.2 v.sup.2 +a.sub.3 v.sup.3 + . . . 3. A system according to claim 1, wherein said computing means reserves therein a relation among a signal of said X-ray detector, the level of vacuum at the synchrotron ring and the intensity of synchrotron radiation, and wherein, when the intensity of synchrotron radiation is I and the output of said X-ray detector is v, the relation satisfies a condition: EQU I(v)=a.sub.0 (p)+a.sub.1 (p)v+a.sub.2 (p)v.sup.2 +a.sub.3 (p)v.sup.3 + . . . 4. A system according to claim 1, wherein said X-ray detector has two elements which are disposed in array along the direction of intensity distribution of the synchrotron radiation. 5. An X-ray exposure apparatus, comprising: 6. An apparatus according to claim 5, wherein said control means comprises means for controlling exposure time. 7. An apparatus according to claim 6, wherein said exposure time controlling means comprises shutter control means for controlling a driving speed or a driving pattern for a shutter thereby to control the exposure time. 8. A device manufacturing method comprising the steps of: