Optical property measurement using a sensor behind a display screen Examples of this application disclose a method for measuring optical properties of a target. The method comprises illuminating the target with an illumination area with a display screen in contact with the target, and analysing signals reflected from the target and transmitted back through the display screen to a sensor positioned behind the display screen, to determine the optical properties of the target.

A method and a device allow optical properties of a sample to be estimated. The method includes the illumination of the sample by a first light source, and the formation of an image of the sample thus illuminated, on the basis of which a first optical property is estimated, at various points on a surface of the sample. The method also includes measuring an auxiliary optical property of the sample and estimating the first optical property, taking account of the auxiliary optical property measured on the sample.

A display panel and a method for manufacturing the same are provided. The display panel includes a display area and a non-display area. The display panel further includes a substrate, a cover plate, an encapsulation assembly, an at least one diffusion layer. The cover plate is disposed opposite to the substrate. The encapsulation assembly is disposed between the cover plate and the substrate and disposed in the non-display area. The at least one diffusion layer is disposed on the substrate and disposed between the encapsulation assembly and the display area. Diffusion occurs when the diffusion layer encounters water.

Disclosed herein are compact, on line, real-time, non-contact optical property measurement systems and methods thereof capable of measuring optical quality such as haze, clarity, luminance of a film during the film manufacturing process. More specifically, the optical property measurement system can move in the transverse direction along the film while the film is on the line, thereby measuring the optical property of the film in real time at various locations on the film in both the transverse and machine direction.

A light inspection system and method of the surface and inside of a sample. The system includes a light source generating a light beam to impinge on a sample; an imaging system obtaining an image of said sample and including a parabolic mirror with a hole to allow the passage of the light beam towards the sample, and the redirection of a scattered light component of the sample towards a light capturing unit comprising a bundle of bifurcated fibers; the bundle of fibers having a central fiber and external fibers, the central fiber receiving scattered light from the surface and the external fibers receiving scattered light from inside the sample; a measuring system measuring a power and/or a spectrum collected in the central and the external fibers.

A light inspection system and method of the surface and inside of a sample. The system includes a light source generating a light beam to impinge on a sample; an imaging system obtaining an image of said sample and including a parabolic mirror with a hole to allow the passage of the light beam towards the sample, and the redirection of a scattered light component of the sample towards a light capturing unit comprising a bundle of bifurcated fibers; the bundle of fibers having a central fiber and external fibers, the central fiber receiving scattered light from the surface and the external fibers receiving scattered light from inside the sample; a measuring system measuring a power and/or a spectrum collected in the central and the external fibers.

A liquid transfer monitoring method to monitor a transfer state of a liquid such as a sample or a reagent having a high transparency which transmits light is provided. The liquid transfer monitoring method comprises a step of transferring a liquid 30 held in a first liquid holding portion 21 to a second liquid holding portion 22 connected to the first liquid holding portion 21, a step of acquiring information 40 relating to a scattered light intensity obtained by irradiating light 91 on the irregular inner surface 23 of at least one of the first liquid holding portion 21 and the second liquid holding portion 22 after starting the transfer of the liquid 30, and a step of monitoring the liquid transfer to the second liquid holding portion 22 based on the information 40 relating to the intensity of scattered light.

A display panel and a method for manufacturing the same are provided. The display panel includes a display area and a non-display area. The display panel further includes a substrate, a cover plate, an encapsulation assembly, an at least one diffusion layer. The cover plate is disposed opposite to the substrate. The encapsulation assembly is disposed between the cover plate and the substrate and disposed in the non-display area. The at least one diffusion layer is disposed on the substrate and disposed between the encapsulation assembly and the display area. Diffusion occurs when the diffusion layer encounters water.

A measurement apparatus of a moving paper web, includes an optical radiation source that outputs optical radiation toward a scattering element of the measurement apparatus. The scattering element scatters the optical radiation, and a transmitting surface of the scattering element directs the optical radiation in a scattered manner toward the moving paper web. A distance between said transmitting surface of the scattering element and a surface of the paper web is known, and the transmitting surface and a detector of the apparatus are on opposite sides of the paper web. The detector receives at least a part of the optical radiation, which is side-scattered from the moving paper web. The detector determines a moisture value and a dry weight of the paper web on the basis of spectral information on the received optical radiation and the known distance.

The technology disclosed in this application provide for non-destructive and non-contact optical characterization of fiber reinforced plastic composites and other structures under test based on optical transmission scanning.