Patent Number: 051704188
Section: claims

1. An X-ray exposure apparatus, comprising: an exposure chamber to be coupled with a synchrotron radiation device through a beam line for receiving synchrotron radiation applied through a window material provided on the beam line to execute an exposure process in said exposure chamber;  pressure detecting means for detecting pressure in said exposure chamber;  a first cutoff valve provided in a portion of the beam line between the window material and the synchrotron radiation device;  a bypass having a communication valve for communicating a portion of the beam line between the window material and said cutoff valve with a portion between the window material and said exposure chamber;  vacuum evacuating means for vacuum evacuating a portion of the beam line between the window material and said cutoff valve;  a pump valve provided in a conduit for coupling said vacuum evacuating means with the beam line;  a controller responsive to pressure detected by said pressure detecting means, wherein, when in the exposure process the detected pressure represents a steady state lower than a predetermined pressure, said controller operates to open said first cutoff valve and said pump valve and to close said communication valve, and wherein, when in the exposure process the detected pressure is higher than the predetermined pressure, said controller operates to close said cutoff valve and said pump valve and thereafter to open said communication valve; and  a second cutoff valve disposed in a portion of the beam line between the window material and said exposure chamber, said controller responsive to pressure detected by said pressure detecting means, wherein, when in the exposure process the detected pressure represents a steady state lower than a predetermined pressure, said controller operates to open said second cutoff valve, and wherein, when in the exposure process the detected pressure is higher than the predetermined pressure, said controller operates to close said second cutoff valve.  placing a substrate in the exposure system into which radiation from the radiation source can be guided along a beam line;  detecting with a pressure detector pressure at an exposure system side of a blocking window provided along the beam line to separate a radiation source side from the exposure system side;  changing a valve from its open position to its closed position when the pressure detected by the pressure detector is higher than a predetermined pressure, wherein the valve is disposed along the beam line and between the blocking window and the exposure system and wherein the predetermined pressure is between a set pressure at the exposure system side and a withstand pressure of the blocking window; and  exposing the substrate with radiation passing through the blocking window when the pressure detected by the pressure detector is not higher than the predetermined pressure.  an exposure chamber to be coupled with a synchrotron radiation device through a beam line for receiving synchrotron radiation applied through a window material provided on the beam line to execute an exposure process in said exposure chamber;  pressure detecting means for detecting pressure in said exposure chamber;  a cutoff valve provided in a portion of the beam line between the window material and said exposure chamber; and  a controller responsive to pressure detected by said pressure detecting means, wherein, when in the exposure process the detected pressure represents a steady state lower than a predetermined pressure, said controller operates to open said cutoff valve and, when in the exposure process the detected pressure is higher than the predetermined pressure, said controller operates to close said cutoff valve.  detecting an inside pressure of the exposure chamber;  comparing the detected pressure to a predetermined pressure;  exposing the semiconductor substrate to the synchrotron radiation beam when the inside pressure of the exposed chamber is not higher than a predetermined level; and  isolating the window material from the exposure chamber when the inside pressure of the exposure chamber is higher than a predetermined level.  an exposure system;  a beam line for guiding synchrotron radiation from the radiation source to said exposure system;  a blocking window disposed in the beam line for separating a radiation source side from an exposure system side, wherein the radiation can pass through said blocking window;  a first openable and closable valve disposed along the beam line and between the radiation source and said blocking window;  a bypass line for providing a bypass between the radiation source side and said exposure system side, wherein a first end of said bypass line is coupled to a portion of said beam line which is between said first valve and said blocking window;  a second openable and closable valve provided along said bypass line;  a vacuum pump coupled to a portion of the beam line which is between said first valve and said blocking window; and  a third openable and closable valve disposed along a vacuum line of said vacuum pump.  an exposure system;  a beam line for guiding synchrotron radiation from the radiation source to said exposure system;  a blocking window disposed in the beam line for separating a radiation source side from an exposure system side, wherein the radiation can pass through said blocking window;  a first openable and closable valve disposed along the beam line and between the radiation source and said blocking window;  a bypass line for providing a bypass between the radiation source side and said exposure system side, wherein a first end of said bypass line is coupled to a portion of said beam line which is between said first valve and said blocking window;  a second openable and closable valve provided along said bypass line; and  a pressure detector for detecting pressure at the exposure system side, wherein said first valve is changed from the open position to the closed position and said second valve is changed from the closed position to the open position when the pressure detected by said pressure detector is higher than a predetermined pressure, with the predetermined pressure being a pressure between a set pressure at the exposure system side and a withstand pressure of said blocking window.  an exposure system;  a beam line for guiding synchrotron radiation from the radiation source to said exposure system;  a blocking window disposed in the beam line for separating a radiation source side from an exposure system side, wherein the radiation can pass through said blocking window; and  an openable and closable valve disposed along the beam line and between said blocking window and said exposure system.  placing a substrate in the exposure system into which radiation from the radiation source can be guided along a beam line;  detecting with a pressure detector pressure at an exposure system side of a blocking window provided along the beam line to separate a radiation source side from the exposure system side;  changing a first valve from the open position to the closed position when the pressure detected by the pressure detector is higher than a predetermined pressure, wherein the first valve is disposed along the beam line and between the radiation source and the blocking window and wherein the predetermined pressure is between a set pressure at the exposure system side and a withstand pressure of the blocking window;  changing a second valve from the closed position to the open position when the pressure detected by the pressure detector is higher than the predetermined pressure, wherein the second valve is disposed along a bypass line connected between the radiation source side and the exposure system side and wherein a first end of the bypass line is coupled to a portion of the beam line which is between the first valve and the blocking window; and  exposing the substrate with radiation passing through the blocking window when the pressure detected by the pressure detector is not higher than the predetermined pressure. 2. A semiconductor device manufacturing method for use with a synchrotron radiation source and an exposure system, comprising the steps of: 3. An X-ray exposure apparatus, comprising: 4. A semiconductor processing method usable with an exposure apparatus having an exposure chamber coupled with a synchrotron radiation source through a beam line for exposing a semiconductor substrate placed in the exposure chamber to a synchrotron radiation beam from the radiation source, passing through a window material provided on the beam line, comprising the steps of: 5. An exposure apparatus for use with a synchrotron radiation source, comprising: 6. An apparatus according to claim 5, further comprising a pressure detector for detecting pressure at the exposure system side, wherein said first and third valves are changed from the open position to the closed position and said second valve is changed from the closed position to the open position when the pressure detected by said pressure detector is higher than a predetermined pressure. 7. An apparatus according to claim 6, wherein said second valve is changed from the closed position to the open position after the first and third valves are changed from the open positions to the closed positions. 8. An apparatus according to claim 5, further comprising a fourth openable and closable valve disposed along said beam line and between said blocking window and said exposure system, wherein a second end of said bypass line is coupled to a portion of said beam line which is between said blocking window and said fourth valve. 9. An apparatus according to claim 8, further comprising a pressure detector for detecting pressure at the exposure system side, wherein each of said first, third and fourth valves is changed from the open position to the closed position while said second valve is changed from the closed position to the open position when the pressure detected by said pressure detector is higher than a predetermined pressure. 10. An exposure apparatus for use with a synchrotron radiation source, comprising: 11. An apparatus according to claim 10, further comprising a third openable and closable valve disposed along said beam line and between said blocking window and said exposure system, wherein a second end of said bypass line is coupled to a portion of said beam line which is between said blocking window and said third valve. 12. An apparatus according to claim 11, wherein said third valve is changed from the open position to the closed position when the pressure detected by said pressure detector is higher than a predetermined pressure. 13. An exposure apparatus for use with a synchrotron radiation source, comprising: 14. An apparatus according to claim 13, further comprising a pressure detector for detecting pressure at the exposure system side, wherein said valve is changed from the open position to the closed position when the pressure detected by said pressure detector is higher than a predetermined pressure. 15. A semiconductor device manufacturing method for use with a synchrotron radiation source and an exposure system, comprising the steps of: 16. A method according to claim 15, further comprising the step of changing a third valve from the open position to the closed position when the pressure detected by the pressure detector is higher than the predetermined pressure, wherein the third valve is disposed along the beam line and between the blocking window and the exposure system. 17. A method according to claim 16, wherein a second end of the bypass line is coupled to a portion of the beam line which is between the blocking window and the third valve.