Patent application number | Description | Published |
20090296205 | Microscope apparatus - Diffracted light generated by a diffraction grating passes through a tube lens, reflected by a reflection mirror and forms illuminating light in a strip pattern on the surface of a sample. Thus, fluorescence generated by an objective lens from the sample passes through the objective lens, the reflection mirror and a tube lens, and forms an image of the sample on the diffraction grating. When the diffraction grating is removed from an optical system and a dichroic mirror is arranged, instead of the reflection mirror, fluorescence from the sample passes through the dichroic mirror, and forms an image of the sample on an imaging surface of an imaging device by an imaging lens. Thus, a microscope which can be used by being switched from a normal fluorescent microscope and uses the diffracted light is provided. | 12-03-2009 |
20100157422 | MICROSCOPE DEVICE - A microscope device including a coherent light source, an illuminating optical system which has light beam splitting means that splits the coherent light source into light beams and phase-modulating means disposed near a pupil conjugate plane and adapted for modulating the phases of two of the light beams and projects illuminating light spatially modulated into an interference fringe structure by causing the two light beams to interfere with each other near the plane of a sample, an imaging optical system for forming an image of the sample with diffracted light, imaging means, and image processing means for creating a sample image by computation of the image captured by the imaging means each time the phase of the spatial modulation is modulated. | 06-24-2010 |
20100302628 | MICROSCOPE - The present invention relates to a microscope of which visibility, controllability and operability can be improved. In the microscope, an optical path and optical path of an image forming system are set so as to be perpendicular to each other when viewed from the top. In other words, in this microscope, there exists an ocular optical system that guides light, which propagates the optical path to optical path of the image forming system, to a user. The optical path is formed in a direction perpendicular to a direction of the light from a sample emitted from the ocular optical system to the user. The present invention can be applied to an inverted microscope. | 12-02-2010 |
20110141260 | Microscope apparatus and storage medium storing microscope apparatus control program - A microscope apparatus includes a monitoring optical system, an imaging unit capturing an image of an observation target through the monitoring optical system to generate a plurality of images, a correction unit disposed in the optical monitoring system and correcting various aberrations which occur due to an observation condition, and a decision unit deciding a correction amount of the correction unit based on the plurality of images generated by the imaging unit, whereby an image deterioration ascribable to the aberration occurring due to the observation condition in the microscope apparatus is appropriately and easily corrected according to a use condition of the microscope apparatus. | 06-16-2011 |
20120026311 | STRUCTURED ILLUMINATION MICROSCOPE APPARATUS AND AN IMAGE FORMING APPARATUS - Polarized light which is emitted from an optical fiber becomes circular polarized light bypassing through a first quarter wave plate. The circular polarized light which has entered a second quarter wave plate is converted into nearly linear polarized light which has S polarization. P polarization components are removed from the nearly linear polarized light by a polarizer, but the polarizer is not always necessary. The optical axis of the polarizer is set to be a direction which allows transmitting of S polarized light. The light that has passed through the polarizer is separated into diffracted lights by a diffraction grating, and is used as the structured illumination light. | 02-02-2012 |
20120327509 | MICROSCOPE - The present invention relates to a microscope of which visibility, controllability and operability can be improved. | 12-27-2012 |
20130088776 | MICROSCOPE APPARATUS - There is provided a microscope apparatus including: a plurality of objective lenses having different magnifications; an imaging system that receives light, which is generated from a sample and emitted from the objective lens when excitation light is emitted to a sample including a fluorescent material that is activated when irradiated with activation light having a predetermined wavelength and fluoresces to be inactivated when irradiated with excitation light having a different wavelength from the activation light in the activation state and that images the light in a state where an astigmatic difference is given to the image of the sample; and an imaging device that captures the image of the sample from the imaging system. The imaging system includes an astigmatic difference changing device that changes the astigmatic difference according to the depth of focus of the objective lens. | 04-11-2013 |
20140104407 | STRUCTURED ILLUMINATION OPTICAL SYSTEM AND STRUCTURED ILLUMINATION MICROSCOPE DEVICE - An illumination optical system includes: a beam splitter located near a conjugate position of a specimen and configured to split beams from a light source into a plurality of groups of beams having different splitting directions around an optical axis; a beam selector configured to select and transmit one group of beams from the plurality of groups of beams and that is rotatable with respect to the optical axis; and a ½ wavelength plate located near the beam selector and rotatable about the optical axis. The rotation angles of the ½ wavelength plate and of the beam selector about the optical axis are respectively set so that the polarization direction of the beam which has passed through the ½ wavelength plate is perpendicular to the splitting direction of the one group of beams that has been selected by the beam selector and split by the beam splitter. | 04-17-2014 |
20140320957 | STRUCTURED ILLUMINATING APPARATUS, STRUCTURED ILLUMINATING MICROSCOPY APPARATUS, AND STRUCTURED ILLUMINATING METHOD - A structured illuminating apparatus includes a branching unit branching an exit light flux from a light source into at least two branched light fluxes, an illuminating optical system making the two branched light fluxes to be respectively collected at mutually different positions on a pupil plane of an objective lens and making the two branched light fluxes to be interfered with each other to illuminate a specimen with an interference fringe of the two branched light fluxes, and an adjusting unit adjusting a height from an optical axis of the illuminating optical system to two collecting points formed on the pupil plane of the objective lens by the two branched light fluxes. | 10-30-2014 |