Provided are a hair observation method, a phase contrast microscope system, and a preparation. The hair observation method includes capturing an infrared image of the hair using an image sensor that is capable of detecting infrared light. A phase contrast microscope system includes: a stage having a sample placed thereon; an infrared light irradiation source for irradiating infrared light to the sample placed on the stage; an image sensor that is capable of detecting infrared light and configured to capture an infrared image of the sample; and a display apparatus configured to display the infrared image captured by the image sensor. The preparation includes a microscope glass and a plurality of hair pieces that are obtained by cutting one hair and arranged on the microscope glass in a manner parallel with one another from one end to another end in a cutting order.

A stage apparatus is disclosed for supporting and positioning a body tissue sample in a microscope. The stage apparatus has (a) an elongated base mount having a longitudinal body extending between a first end and a second end, (b) means for attaching the first end of the base to a mount or platform associated with the microscope, (c) a tissue mount having a tissue well attached to an elongated mount stem, the tissue well of sufficient size and shape to store the body tissue sample, and (d) means for attaching the second end of the base mount and the tissue mount, the tissue mount being removable and separable from the base mount.

A stage apparatus is disclosed for supporting and positioning a body tissue sample in a microscope. The stage apparatus has (a) an elongated base mount having a longitudinal body extending between a first end and a second end, (b) means for attaching the first end of the base to a mount or platform associated with the microscope, (c) a tissue mount having a tissue well attached to an elongated mount stem, the tissue well of sufficient size and shape to store the body tissue sample, and (d) means for attaching the second end of the base mount and the tissue mount, the tissue mount being removable and separable from the base mount.

The invention relates to a liquid cell (1) for the microscopic image capture and Raman spectroscopic material analysis of a particle suspension in a reflected light microscope, having at least the following components: a measuring chamber (2) which has a base (3), a measuring window (5) opposite the base (3), and a seal (6), wherein the base (3) has a planar design at least in one region of the support of the seal (6), and the base (3) has a reflective surface (4) which is provided such that Raman excitation light incident through the measuring window (5) is reflected on the reflective surface (4) in a directed manner such that the background signal in a Raman measurement is reduced and the Raman signal of a particle in a suspension is increased. The invention further relates to a microscope which has such a liquid cell.

The invention relates to a liquid cell (1) for the microscopic image capture and Raman spectroscopic material analysis of a particle suspension in a reflected light microscope, having at least the following components: a measuring chamber (2) which has a base (3), a measuring window (5) opposite the base (3), and a seal (6), wherein the base (3) has a planar design at least in one region of the support of the seal (6), and the base (3) has a reflective surface (4) which is provided such that Raman excitation light incident through the measuring window (5) is reflected on the reflective surface (4) in a directed manner such that the background signal in a Raman measurement is reduced and the Raman signal of a particle in a suspension is increased. The invention further relates to a microscope which has such a liquid cell.

A transmission type color calibration chart includes a transparent substrate and a color bar group formed on the transparent substrate, wherein the color bar group is constituted by color bars of a plurality of colors containing at least a first color and a second color arranged in a pattern in no particular order, coordinate points of the first color are within a region encompassed by the four points (0.351, 0.649), (0.547, 0.453), (0.380, 0.506) and (0.433, 0.464) on an xy chromaticity diagram, coordinate points of the second color are within a region encompassed by the four points (0.125, 0.489), (0.112, 0.229), (0.270, 0.407) and (0.224, 0.242) on an xy chromaticity diagram, and the transmission spectrum of the first color's color bar and the transmission spectrum of the second color's color bar have peak tops that are respectively separated.

A transmission type color calibration chart includes a transparent substrate and a color bar group formed on the transparent substrate, wherein the color bar group is constituted by color bars of a plurality of colors containing at least a first color and a second color arranged in a pattern in no particular order, coordinate points of the first color are within a region encompassed by the four points (0.351, 0.649), (0.547, 0.453), (0.380, 0.506) and (0.433, 0.464) on an xy chromaticity diagram, coordinate points of the second color are within a region encompassed by the four points (0.125, 0.489), (0.112, 0.229), (0.270, 0.407) and (0.224, 0.242) on an xy chromaticity diagram, and the transmission spectrum of the first color's color bar and the transmission spectrum of the second color's color bar have peak tops that are respectively separated.

A mounting device for holding a sample mounted to a sample holder for use in an inverted microscope. The mounting device includes a platen; a mounting located on a sample side of the platen; a sample holder removably coupled to the mounting so the sample is along an optical axis of the inverted microscope; and a spacer shaped as a hollow prism or a hollow cylinder having a height and defining a through hole. The platen is disposed on the spacer with the sample side facing toward the spacer and the sample holder positioned within the through hole. The height of the spacer arranges the sample within a focal plane of the inverted microscope.

A mounting device for holding a sample mounted to a sample holder for use in an inverted microscope. The mounting device includes a platen; a mounting located on a sample side of the platen; a sample holder removably coupled to the mounting so the sample is along an optical axis of the inverted microscope; and a spacer shaped as a hollow prism or a hollow cylinder having a height and defining a through hole. The platen is disposed on the spacer with the sample side facing toward the spacer and the sample holder positioned within the through hole. The height of the spacer arranges the sample within a focal plane of the inverted microscope.

An apparatus including a receptacle including a slot for receiving a basket; a push bar disposed in the receptacle, the push bar having an end to contact an edge of a single slide of a plurality of slides in a basket, the push bar including a first position below a bottom surface of a base of a basket that is received in the slot and a second position in the slot; and a sensor focused in a direction of the slot operable to acquire information from a slide in a received basket. A method including placing a slide basket into a slot of a receptacle; individually raising one or more slides from a respective position in the basket; using a sensor, acquiring information from the raised slide in the basket; and after acquiring information, lowering the raised slide.