Optical sample characterization facilitates measurement and testing at any angle in a full range of angles of light propagation through an optical sample, such as a coated glass plate, having a higher than air index of refraction. A rotatable assembly includes a cylinder having a hollow, and a receptacle including the hollow. The receptacle also contains a fluid with a known refractive index. An optical light beam is input normal to the surface of the cylinder, travels through the cylinder, then via the fluid, to the optical sample, where light beam is transmitted and/or reflected, then exits the cylinder and is collected for analysis. Due at least in part to the fluid surrounding the optical sample, the optical sample can be rotated through a full range of angles (90, etc.) for full range testing of the optical sample.

Provided is a microscope including: a chamber storing a solution in which a cuvette accommodating a solution together with a sample is immersed and that has an index of refraction identical to that of the solution; an immersion objective lens being placed outside the chamber and collecting light from the sample; a camera acquiring an image of the light collected by the lens; a targeting section moving the lens in a direction along a detection light axis thereof; and a movable stage supporting the cuvette in the chamber so as to be movable in at least a direction along the detection light axis. Each of the cuvette and the chamber has a transparent section that can transmit light coming from the sample. The lens is placed so as to face the transparent section of the cuvette with the transparent section of the chamber interposed therebetween.

Optical sample characterization facilitates measurement and testing at any angle in a full range of angles of light propagation through an optical sample, such as a coated glass plate, having a higher than air index of refraction. A rotatable assembly includes a cylinder having a hollow, and a receptacle including the hollow. The receptacle also contains a fluid with a known refractive index. An optical light beam is input normal to the surface of the cylinder, travels through the cylinder, then via the fluid, to the optical sample, where light beam is transmitted and/or reflected, then exits the cylinder and is collected for analysis. Due at least in part to the fluid surrounding the optical sample, the optical sample can be rotated through a full range of angles (90, etc.) for full range testing of the optical sample.

A cartridge for storing an un-labelled tissue to be imaged by an optical imaging system may include: a container to store the un-labelled tissue, and to interface with the optical imaging system; an optical substrate, provided on a bottom surface of the container, through which the optical imaging system is configured to image the un-labelled tissue to generate a virtually-stained histological image of the un-labelled tissue; and a lid, provided on a top surface of the container, including a membrane to compress the un-labelled tissue against the optical substrate such that an entire margin of the un-labelled tissue is flat against the optical substrate.

Described are various embodiments of a refractory lance assembly and a composite refractory lance. In one embodiment, a refractory lance assembly is provided that comprises: an immersion tube having an immersion tip immersible within a melt and an extension tube coupled at an opposed end thereof to form a longitudinally extended composite tube therewith defining an optical path therein, wherein said longitudinally extended composite tube is injectable, in use, with an inert gas to form and probe an immersed melt surface. The assembly further comprises a shroud longitudinally encasing the composite tube and injectable with inert gas to mitigate fluid contamination of the composite tube and immersed melt surface.