Abstract:
A method for monitoring cleaning of a surface includes applying an amount of transparent indicator material to an area of a surface and measuring the amount of transparent indicator material remaining on the surface. The transparent indicator material may be fixed on the surface by drying and, when a fluorescent material, may be measured through exposure to ultraviolet radiation.
Abstract:
The application pertains to a sensor element (11) for photoluminescence measurements, with an optically transparent carrier structure (19), on which is placed a luminescence structure (21) configured for intensifying and transmitting luminescence light to the carrier structure (19), wherein the luminescence structure has a nanostructured surface (25) oriented away from the carrier structure (19).
Abstract:
A phase synchronizing pulse amplitude modulation fluorometer having an excitation light source capable of emitting a pulse of light that will induce fluorescence in an external object. A photo detector for detecting the pulse and a circuit to synchronize a pulse of light from the excitation light source with a pulse of light from an external light source.
Abstract:
A waveguide structure for evanescent wave microscopy and/or spectroscopy, comprising an optically transparent core layer, a lower dielectric cladding layer and an upper dielectric cladding layer arranged on opposite sides of the core layer. The core layer has a refractive index higher than the refractive indices of the cladding layers. The upper cladding layer is made of an organic material. A sample well is arranged on an upper surface of the core layer formed by a cavity in the upper cladding layer, the sample well being adapted to contain a sample medium with one or more sample objects. The core layer is made of a first dielectric inorganic material, and the upper cladding layer has a refractive index which closely matches the refractive index of the sample medium. A method for manufacturing such waveguide structure, and a measurement system comprising the waveguide structure are also disclosed.
Abstract:
Method for detecting metals in a liquid are described. The liquid is contacted with a hexahydrotriazine and/or a hemiaminal material, and a UV absorption spectrum of the material before and after exposure to the liquid is examined to determine whether metals are present in the liquid.
Abstract:
Apparatuses and methods are disclosed for performing a light-absorption measurement on a test sample and a compliance measurement on a reference sample. A method includes moving a reference sample receptacle carrier of an apparatus to position a first reference sample receptacle received in the carrier at a second position in a light path, directing light from an illumination system to a detection system along the light path to perform a light-absorption measurement on a first reference sample at the second position, moving the carrier to position the first receptacle out of the light path, placing a test sample receptacle in a test sample receptacle holder of the apparatus in the light path at a first position different from the second position, and directing light along the light path to perform a light-absorption measurement on a test sample in the test sample receptacle holder at the first position.
Abstract:
Apparatus features a sample tube adapter made of conductive material, having a first part to contain and touch a sample tube having a sample therein, and a second part to provide a thermal path for heat transfer to/from the sample tube and a thermal assembly for performing a sample analysis; and sample support rails to receive the sample tube adapter to provide physical support for the sample tube, orient the sample tube adapter in relation to the thermal assembly so there is contact between the sample tube adapter and the thermal assembly to provide the thermal path for heat transfer to/from the sample tube and the thermal assembly, and align the sample tube adapter in relation to a light source so there is a registration between the sample tube and a light beam provided by the light source, all for performing the sample analysis.
Abstract:
A lighting device that emits illumination light from two or more angular directions onto a sample surface to be measured, an imaging optical lens, and a monochrome two-dimensional image sensor are provided. This configuration provides a method and an apparatus that take a two-dimensional image of the sample surface to be measured at each measurement wavelength and accurately measure multi-angle and spectral information on each of all pixels in the two-dimensional image in a short time. In particular, a multi-angle spectral imaging measurement method and apparatus that have improved accuracy and usefulness are provided.
Abstract:
A system and a method for characterizing an aromaticity value of a crude oil sample from the weight and ultraviolet visible spectroscopy of the sample id provided. The system and method includes calculating and assigning a crude oil ultraviolet visible index and using the assigned index to calculate and assign an aromaticity value of the sample, and optionally to calculate and assign an API gravity.
Abstract:
A device for inspecting a material with a coated surface includes a light source disposed above the surface that emits light in a wavelength range, at least one first camera for determining a color value of detected light reflected from the surface and an evaluation device. The first camera is disposed above a line located on the surface and configured with a first aperture to detect light from a first point of the line at a first viewing angle and light from a second point separate from the first point at a second viewing angle. The first camera determines a first color value of the first point light and a second color value of the second point light and the evaluation device compares the first and second color values or a color value difference with a predefined color setpoint value or predefined color setpoint value range.