The present application discloses a light sheet microscope for imaging biological materials. The microscope uses a plurality of light beams, focused to an overlapping line to excite a fluorescent material within the biological sample. The laser-induced fluorescence image is then analyzed and displayed.

The present application discloses a light sheet microscope for imaging biological materials. The microscope uses a plurality of light beams, focused to an overlapping line to excite a fluorescent material within the biological sample. The laser-induced fluorescence image is then analyzed and displayed.

An observation vessel includes a holding portion configured to hold an observation object and an accommodation portion at least partially formed of a transparent curved surface and configured to position the holding portion. The holding portion is configured to hold the observation object at a set position separated from the curved surface toward a center of curvature of the curved surface in a first state of being positioned at a first position by the accommodation portion.

An observation vessel includes a holding portion configured to hold an observation object and an accommodation portion at least partially formed of a transparent curved surface and configured to position the holding portion. The holding portion is configured to hold the observation object at a set position separated from the curved surface toward a center of curvature of the curved surface in a first state of being positioned at a first position by the accommodation portion.

Among other things, a first surface is configured to receive a sample and is to be used in a microscopy device. There is a second surface to be moved into a predefined position relative to the first surface to form a sample space that is between the first surface and the second surface and contains at least part of the sample. There is a mechanism configured to move the second surface from an initial position into the predefined position to form the sample space. When the sample is in place on the first surface, the motion of the second surface includes a trajectory that is not solely a linear motion of the second surface towards the first surface.

Among other things, a first surface is configured to receive a sample and is to be used in a microscopy device. There is a second surface to be moved into a predefined position relative to the first surface to form a sample space that is between the first surface and the second surface and contains at least part of the sample. There is a mechanism configured to move the second surface from an initial position into the predefined position to form the sample space. When the sample is in place on the first surface, the motion of the second surface includes a trajectory that is not solely a linear motion of the second surface towards the first surface.

A system having a macroscopic imager, a microscopic imager, and a stage for moving a substrate supporting ex-vivo tissue with respect to each of the imagers to enable the macroscopic imager to capture macroscopic images, and the microscopic imager to capture optically formed sectional microscopic images on or within the tissue, when presented to the tissue, via the optically transparent material of the substrate. A computer system controls movement of the stage, and receives the macroscopic and microscopic images. A display is provided for displaying the macroscopic and microscopic images when received by the computer system. The tissue is verified as being in an orientation at least substantially flush against the upper surface of the substrate by being in focus in displayed macroscopic images prior to imaging by the microscopic imager, and if needed, any portion of the tissue unfocused is manually positioned until desired tissue orientation is achieved.

A system having a macroscopic imager, a microscopic imager, and a stage for moving a substrate supporting ex-vivo tissue with respect to each of the imagers to enable the macroscopic imager to capture macroscopic images, and the microscopic imager to capture optically formed sectional microscopic images on or within the tissue, when presented to the tissue, via the optically transparent material of the substrate. A computer system controls movement of the stage, and receives the macroscopic and microscopic images. A display is provided for displaying the macroscopic and microscopic images when received by the computer system. The tissue is verified as being in an orientation at least substantially flush against the upper surface of the substrate by being in focus in displayed macroscopic images prior to imaging by the microscopic imager, and if needed, any portion of the tissue unfocused is manually positioned until desired tissue orientation is achieved.

A light sheet microscope includes a sample chamber in which a cover slip or slide is arrangeable, which has a surface that defines a partially reflective interface and which has a further surface that defines a further partially reflective interface. The two interfaces are arranged at different distances from an objective. The light sheet microscope further includes an optical system having the objective facing toward the cover slip or slide, an illumination apparatus, which is designed to generate a light sheet, a sensor, and a processor. The two interfaces are formed in that two optical media are applicable in the sample chamber. The light sheet microscope forms a measuring device for acquiring a measured variable. The sensor is designed to acquire the intensities and/or the incidence locations of the two reflection light beams.

A light sheet microscope includes a sample chamber in which a cover slip or slide is arrangeable, which has a surface that defines a partially reflective interface and which has a further surface that defines a further partially reflective interface. The two interfaces are arranged at different distances from an objective. The light sheet microscope further includes an optical system having the objective facing toward the cover slip or slide, an illumination apparatus, which is designed to generate a light sheet, a sensor, and a processor. The two interfaces are formed in that two optical media are applicable in the sample chamber. The light sheet microscope forms a measuring device for acquiring a measured variable. The sensor is designed to acquire the intensities and/or the incidence locations of the two reflection light beams.