JASCO CORPORATION Patent applications |
Patent application number | Title | Published |
20140268154 | CHROMATOGRAPHY SYSTEM, SIGNAL PROCESSING APPARATUS, CHROMATOGRAPHY DATA PROCESSING APPARATUS, AND PROGRAM - A chromatography system has a multi-channel detection device including a flow cell, optics for directing light from light sources to the flow cell and outputting light that has passed through the flow cell, and a multi-channel detector. The optics has a function of dispersing light in wavelength in an optical path. The detector receives the light dispersed in wavelength. The multi-channel detection device also has a signal processing part connected to the detector. The chromatography system has a data processing apparatus. The signal processing circuit has a function of calculating an absorbance by absorbance=−log | 09-18-2014 |
20130293887 | Solution Sample Holding Method, Sample Cell, And Circular Dichroism Measuring Apparatus - A solution sample holding method between two light-transmitting plate-like members for measuring light passing through a minute amount of solution sample, comprises a dripping step and a covering step. The dripping step is to drip a minute amount of solution sample in a drip area of a sample mounting face of a first light-transmitting member. The sample mounting face also includes a liquid-repellent area surrounding the drip area. The covering step is to cover the solution sample with a second light-transmitting member and to maintain a predetermined distance between the first light-transmitting member and the second light-transmitting member. The liquid-repellent area of the sample mounting face is covered with a liquid-repellent substance. The minute amount of solution sample is held in contact with the two light-transmitting members. | 11-07-2013 |
20130258334 | Circular Dichroism Spectrometer Having Alignment Mechanism - A circular dichroism (CD) spectrometer includes an alignment mechanism that automatically adjusts the elements thereof at appropriate positions. The spectrometer has a focusing-lens position-and-orientation adjustment mechanism which adjusts the position and the orientation of the detector-side focusing lens. It also has a detector rotation mechanism which adjusts the orientation of the detector. Firstly, a control PC monitors the CD spectrum of D form of optical enantiomers, and the adjustment mechanism adjusts the focusing lens such that the monitored CD spectrum matches the reference spectrum related to the D form. Next, the control PC moniters CD spectrum of L form of optical enantiomers, and the adjustment mechanism adjusts the focusing lens such that the monitored CD spectrum of the D and L forms become symmetrical. And, the rotation mechanism adjusts the orientation of the detector such that the intensity of the detector signal is maximized. | 10-03-2013 |
20130169965 | Depolarizer And Circular Dichroism Spectrometer Using The Same - A depolarizer includes a pair of wedge-shaped plates made of an optically isotropic material, laid one on top of another such that the total thickness is constant and wedge-plate holding means for holding the pair of wedge plates separately. The wedge-plate holding means includes a pressure-applying section for applying pressure to each of the pair of wedge plates in a direction perpendicular to the thickness direction of the pair of wedge plates. The pressure-applying direction for one of the pair of wedge plates and the pressure-applying direction for the other of the pair of wedge plates intersect at an angle of 45 degrees. | 07-04-2013 |
20130161243 | HIGH-PRESSURE FLUORESCENCE FLOW CELL, FLOW CELL ASSEMBLY, FLUORESCENCE DETECTOR, AND SUPERCRITICAL FLUID CHROMATOGRAPH - A high-pressure fluorescence flow cell comprises a cell body made of a light-transmissive material, wherein the cell body is penetrated by a straight-line flow path for a high-pressure fluid, wherein the flow path is formed with a cross section of 0.1 mm | 06-27-2013 |
20120303308 | Baseline Setting Method - The figure is fixed in a given position. If peaks are seen in the positive Y direction, the minimum value of the difference in height between the spectrum and the figure in the range where the figure is present on the X-axis. The minimum value and the height of the figure at the reference point are added. The figure is moved within a range containing the reference point, and the minimum value of the difference in height between the spectrum and the figure is added to the height of the figure at the reference point, at each point on the figure. A maximum value L | 11-29-2012 |
20120082569 | Very-Small-Capacity Pressure Gauge - A pressure gauge mounted to a pump or a back pressure regulator in an HPLC, SFC, or SFE system provides improved solvent exchange and improved measurement precision. A through hole having an inside diameter of 1.0 mm is made in a hexagonal member similar in shape to a pipe joint. A part of the hexagonal member is cut away to form a flat surface such that the distance to the outside periphery of the through hole is 0.5 mm to serve as a strain-measurement strain gauge attaching surface. One strain gauge is attached to the center of the strain-measurement strain gauge attaching surface, and two strain gauges are attached for temperature correction, one on the same surface as the strain-measurement strain gauge attaching surface and the other on an outside surface of the hexagonal member. | 04-05-2012 |
20110292387 | Circular Dichroism Spectrophotometric Method And Circular Dichroism Spectrophotometry Apparatus Using ATR Method - A simple method and apparatus for circular dichroism spectrophotometry are provided that allow a liquid, cream-type, and gel-type specimens having a low degree of transparency to be measured directly and nondestructively without passing light through the specimens. Right-handed or left-handed circularly polarized light enters a prism from an entrance face and hits a specimen mounting face of the prism, on which a specimen is placed, at an angle of 80°. Then, after being totally reflected by the specimen mounting face and going out from an exit face, the light is detected, and the absorbance is determined. | 12-01-2011 |
20110252871 | Ultraviolet Curing Resin Property Measuring Apparatus - Measuring apparatus comprises a rotating plate | 10-20-2011 |
20110141490 | Three-Dimensional Base Setting Method For Image Data - A highly accurate three-dimensional measurement base is specified with simple settings. When a peak occurs in the positive Z-axis direction, a hemisphere or semi-spheroid figure (z≧0) is placed to contain a position (x | 06-16-2011 |
20110094606 | Pressure Control Apparatus For Supercritical Fluid - An object of the present invention is to provide a pressure control apparatus for a supercritical fluid in which variation in pressure is small even in measurement in which analysis conditions are changed with time to improve separation and other performance. That is, a pressure control apparatus for a supercritical fluid according to the present invention includes: a valve comprising; a valve chamber provided in a midway of a channel through which a supercritical fluid passes; and an electrically-operated valve element located in the valve chamber; wherein a front end of the valve element fits into the valve chamber when the valve is closed, and it travels backward when the valve is opened; a pressure detection member for detecting the pressure of the supercritical fluid in the channel on an upstream or downstream side of the valve chamber; an open/close control member for controlling the pressure detected by the pressure detection member to be a target pressure; and a valve-opening rate adjustment member for adjusting the valve-opening rate when the valve is opened based on the state of the supercritical fluid. | 04-28-2011 |
20100309455 | Microscopic Total Reflection Measuring Apparatus - An object of the present invention is to provide a total reflection measuring apparatus which, while visually observing a specific minute area of a measurement object, is capable of efficiently obtaining optical data on the basis of the total reflection measurement. A microscopic total reflection measuring apparatus of the present invention comprises a Cassegrain mirror | 12-09-2010 |
20100305893 | Baseline Setting Method - The figure is fixed in a given position. If peaks are seen in the positive Y direction, the minimum value of the difference in height between the spectrum and the figure in the range where the figure is present on the X-axis. The minimum value and the height of the figure at the reference point are added. The figure is moved within a range containing the reference point, and the minimum value of the difference in height between the spectrum and the figure is added to the height of the figure at the reference point, at each point on the figure. A maximum value L | 12-02-2010 |
20100110441 | Microscope - A microscope comprising: a light sampler for collecting light from a measurement area of a sample; a multi-element detector having a plurality of photoelectric elements, for detecting the light collected by the light sampler, each photoelectric element corresponding to a minute measurement region in the measurement area with one-to-one correspondence; a Fourier transform spectrophotometer as a spectroscope; a data sampler for concurrently sampling intensity data sent from each photoelectric element of the multi-element detector at a timing determined by the Fourier transform spectrophotometer; and a data processor for obtaining time-resolved spectrum data for each minute measurement region according to temporally changed interference light data obtained by the data sampler. | 05-06-2010 |
20100077874 | Sample Collection Container, Sample Collection Apparatus, And Sample Collection Method In Supercritical Fluid System - There is provided a sample collection container, a sample collection apparatus, and a sample collection method used in a supercritical fluid system capable of collecting a multi-constituent sample contained in a supercritical fluid at low cost and high collection efficiency. The pressure of a supercritical fluid containing a sample is reduced to a pressure close to the atmospheric pressure, and the depressurized supercritical fluid is forced to undergo adiabatic expansion to form gas-phase CO | 04-01-2010 |
20090242770 | Automatic And Continuous Quantitative Analysis Method And Apparatus For Multiple Components - An automatic and continuous quantitative analysis method and apparatus capable of accurately and quickly quantifying the concentration of each component of a plurality of known components having close infrared absorption regions and similar infrared absorption curve shapes, included in a measurement sample. As a quantification wave number for each component of the plurality of components, a wave number at a tip of one absorption peak that overlaps as little as possible with absorption peaks in infrared absorption spectra of the other components, selected as a particular absorption peak for the component, is specified. A step is repeated in which the concentration of each component of the plurality of components having a prescribed highest order in the measurement sample is quantified from an absorbance at an absorption peak corresponding to the quantification wave number of the component having the prescribed highest order, in the spectrum of the measurement sample or a difference spectrum generated immediately before and from a calibration curve generated in advance for the component having the prescribed highest order, and an infrared absorption spectrum for the component having the prescribed highest order alone, where an absorbance at the quantification wave number for the component having the prescribed highest order is set to have the same intensity as the absorbance is subtracted from the spectrum of the measurement sample or the difference spectrum generated immediately before to generate a difference spectrum. | 10-01-2009 |
20090103173 | Microscopic-Measurement Apparatus - A microscopic-measurement apparatus capable of conducting measurement successively in several set areas regardless of the type of stage driving system or the precision of the stage driving system. The microscopic-measurement apparatus for acquiring optical information from desired portions of a sample by moving a measuring optical axis on a surface of the sample includes an observation-image display section for displaying a sample surface image as an observation image, in a range of visual field which is observable at a present sample position; an optical-axis display section for displaying areas to be measured and a present position of the measuring optical axis in an overlapped state with the observation image; an area setting section capable of setting measuring areas by expanding, reducing, changing in shape and moving the areas to be measured; and an optical-information acquisition section for measuring one set measuring area or several set measuring areas successively with an instruction of starting measurement. | 04-23-2009 |
20080282197 | Microscopic-Measurement Apparatus - A microscopic-measurement apparatus capable of displaying, on a display device, an enlarged view of a particular part of a specimen placed on a movable stage and providing optical information of a desired portion includes an observation-image display section for displaying an enlarged view of a specific part of the specimen on the display device; a thumbnail-image display section for acquiring the enlarged image of the specific part as a thumbnail image when the enlarged observation image is specified and displaying the thumbnail image together with the enlarged image on the display device; a thumbnail-coordinate storage section for storing coordinate information of the specific part, where the thumbnail image is acquired, in association with the thumbnail image; and a thumbnail jump display section for causing the observation-image display section to display an enlarged image of the position of the thumbnail image by specifying the thumbnail image. | 11-13-2008 |
20080204751 | Optical Rotating Power Measurement Method And Optical Rotating Power Measurement Apparatus - An optical rotating power measurement method comprising: an optical rotating power data acquisition step of starting measurement of the optical rotating power of the sample in a measurement apparatus during a temperature changing process where a controller controls the temperature of the sample such that the temperature reaches the predetermined temperature and of obtaining temperature data and optical rotating power data of the sample as time passes during the temperature changing process; and a data processing step of obtaining a straight line relationship data between the temperature data and the optical rotating power data, by using the fact that the optical rotating power of the sample is proportional to a measurement temperature; wherein the optical rotating power data of the sample at the predetermined temperature or the temperature dependence data of the optical rotating power of the sample is determined based on the straight line relationship data. | 08-28-2008 |