发明名称 |
CONCENTRATION CALCULATION SYSTEM OF OPTICALLY ACTIVE SUBSTANCE, MANUFACTURING METHOD OF CONCENTRATION CALCULATION SYSTEM OF OPTICALLY ACTIVE SUBSTANCE, AND COMPUTER READABLE MEDIUM |
摘要 |
A concentration calculation system calculates a concentration of the optically active substance based on a formula. The formula includes a first function representing wavelength dependence of an optical rotation of a first optically-active substance, and a second function representing wavelength dependence of an optical rotation of a second optically-active substance. In the first function, concentration of the first optically-active substance has an unknown value, and an inherent value for defining a characteristic of optical rotatory dispersion of the first optically-active substance is a known value or an unknown value within a certain limited range. In the second function, an inherent value for defining a characteristic of optical rotatory dispersion of the second optically-active substance is an unknown value. The concentration of the first optically-active substance is calculated based on the formula and optical rotations of measurement target respectively corresponding to a plurality of wavelengths, by using a least-squares method. |
申请公布号 |
US2016238518(A1) |
申请公布日期 |
2016.08.18 |
申请号 |
US201615138646 |
申请日期 |
2016.04.26 |
申请人 |
FUJI XEROX CO., LTD. |
发明人 |
TAKEDA Kazutaka;MATSUSHITA Kazuyuki;YUKAWA Kohei;OZAWA Hideaki;KINOSHITA Taku;NAKAYAMA Hideo |
分类号 |
G01N21/21;G01N33/49 |
主分类号 |
G01N21/21 |
代理机构 |
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代理人 |
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主权项 |
1. A concentration calculation system of an optically active substance, that calculates a concentration of the optically active substance based on a formula representing an optical rotation, the formula including a first function representing wavelength dependence of an optical rotation of at least one first optically-active substance, and a second function representing wavelength dependence of an optical rotation of at least one second optically-active substance, wherein
in the first function, concentration of the first optically-active substance has an unknown value, and at least one inherent value for defining a characteristic of optical rotatory dispersion of the first optically-active substance is a known value or an unknown value within a certain limited range, in the second function, at least one inherent value for defining a characteristic of optical rotatory dispersion of the second optically-active substance is an unknown value, and the concentration of the first optically-active substance is calculated based on the formula and optical rotations of measurement target respectively corresponding to a plurality of wavelengths, by using a least-squares method. |
地址 |
Tokyo JP |