| Patent application number | Description | Published |
|---|
| 20090130667 | PROBE, PROBE SET, PROBE-IMMOBILIZED CARRIER, AND GENETIC TESTING METHOD - A nucleic acid probe for classification of pathogenic bacterial species is capable of collectively detecting bacterial strains of the same species and differentially detecting them from other bacterial species. Any one of the base sequences of SEQ ID NOS. 81 to 83 and complementary or modified sequences thereof or a combination of at least two of them is used for detecting the gene of an infectious disease pathogenic bacterium. | 05-21-2009 |
| 20090130668 | PROBE, PROBE SET, PROBE-IMMOBILIZED CARRIER, AND GENETIC TESTING METHOD - A nucleic acid probe for classification of pathogenic bacterial species is capable of collectively detecting bacterial strains of the same species and differentially detecting them from other bacterial species. Any one of the base sequences of SEQ ID NOS. 78 to 80 and complementary or modified sequences thereof or a combination of at least two of them is used for detecting the gene of an infectious disease pathogenic bacterium. | 05-21-2009 |
| 20090130669 | PROBE, PROBE SET, PROBE-IMMOBILIZED CARRIER, AND GENETIC TESTING METHOD - A nucleic acid probe for classification of pathogenic bacterial species is capable of collectively detecting bacterial strains of the same species and differentially detecting them from other bacterial species. Any one of the base sequences of SEQ ID NOS. 92 to 93 and complementary or modified sequences thereof or a combination of at least two of them is used for detecting the gene of an infectious disease pathogenic bacterium. | 05-21-2009 |
| 20090130670 | PROBE, PROBE SET, PROBE-IMMOBILIZED CARRIER, AND GENETIC TESTING METHOD - A nucleic acid probe for classification of pathogenic bacterial species is capable of collectively detecting bacterial strains of the same species and differentially detecting them from other bacterial species. Any one of the base sequence of SEQ ID NO. 94 and complementary or modified sequences thereof or a combination of at least two of them is used for detecting the gene of an infectious disease pathogenic bacterium. | 05-21-2009 |
| 20090130671 | PROBE, PROBE SET, PROBE-IMMOBILIZED CARRIER, AND GENETIC TESTING METHOD - A nucleic acid probe for classification of pathogenic bacterial species is capable of collectively detecting bacterial strains of the same species and differentially detecting them from other bacterial species. Any one of the base sequences of SEQ ID NOS. 73 to 75 and complementary or modified sequences thereof or a combination of at least two of them is used for detecting the gene of an infectious disease pathogenic bacterium. | 05-21-2009 |
| 20100296711 | METHOD OF DETERMINING A BIOSPECIES - Determining a biospecies is performed by using a plurality of analysis data obtained by analyzing a plurality of known samples whose corresponding biospecies are already revealed by a method of analyzing an organism and a determination threshold defined on the basis of the plurality of analysis data; deciding whether determination of a biospecies corresponding to an unknown sample is possible or not on the basis of the determination threshold; and determining a biospecies corresponding to the unknown sample on the basis of the plurality of analysis data when the determination is decided as possible. | 11-25-2010 |
| Patent application number | Description | Published |
|---|
| 20090231562 | EFFECTIVE LIGHT SOURCE SHAPE DATABASE GENERATION METHOD, OPTICAL IMAGE CALCULATION METHOD, RECORDING MEDIUM, EXPOSURE METHOD, AND DEVICE FABRICATION METHOD - The present invention provides a method of generating a database of effective light source shapes including a generation step of generating an initial database representing an effective light source shapes corresponding to a plurality of conditions settable for an illumination optical system, a measurement step of setting an arbitrary condition for the illumination optical system, and measuring an effective light source shape, a calculation step of calculating a difference amount between an effective light source shape when each of the plurality of conditions is set for the illumination optical system and the effective light source shape included in the initial database, and a correction step of correcting the effective light source shapes included in the initial database using the difference amounts and compiling the corrected effective light source shapes into an actual database. | 09-17-2009 |
| 20090233194 | PARAMETER DETERMINATION METHOD, EXPOSURE METHOD, DEVICE FABRICATION METHOD, AND STORAGE MEDIUM - The present invention provides a parameter determination method of determining an optical parameter and a process parameter by using an optical simulator which calculates a resist image to be formed on a resist applied on a substrate, based on the optical parameter of an exposure apparatus which transfers a pattern of a mask onto the substrate, and a process simulator which calculates a process image to be formed on the substrate, based on the process parameter representing information concerning the resist and information concerning a process to be performed on the resist. | 09-17-2009 |
