A high-resolution optical spectrometer with multiple diffractive optical elements operates under broadband light and enables spectral splitting with 3D diffractive optical elements. Diffractive optical elements are used to provide concentration of light as well as spectral splitting. Depending on the application, the high-resolution optical spectrometer operates with a reflection or transmission diffractive optical element. The number of operating wavelengths, spectral resolution, and operating bandwidth of diffractive optical elements are flexible depending on application.

A monochromator 100 includes: a diffraction grating 2 placed within a housing 1 so as to receive light from an entrance 11 and disperse the light into a spectrum from which a component of light having a set wavelength is to be extracted through an exit 12; an optical filter 92 to be removably inserted between the grating and the exit to remove light within a specific wavelength band which is out of the set wavelength; a rotary drive 5 for rotating the grating using a stepping motor; a wavelength-movement information setter 73 which sets wavelength-movement information to be used for rotating the grating from an original position to a rotational position corresponding to the set wavelength; and a wavelength-movement controller 71 which controls the rotary drive to initially rotate the grating to the original position and subsequently rotate it to the aforementioned rotational position based on the wavelength-movement information.

A monochromator 100 includes: a diffraction grating 2 placed within a housing 1 so as to receive light from an entrance 11 and disperse the light into a spectrum from which a component of light having a set wavelength is to be extracted through an exit 12; an optical filter 92 to be removably inserted between the grating and the exit to remove light within a specific wavelength band which is out of the set wavelength; a rotary drive 5 for rotating the grating using a stepping motor; a wavelength-movement information setter 73 which sets wavelength-movement information to be used for rotating the grating from an original position to a rotational position corresponding to the set wavelength; and a wavelength-movement controller 71 which controls the rotary drive to initially rotate the grating to the original position and subsequently rotate it to the aforementioned rotational position based on the wavelength-movement information.

An optical arrangement for a spectral analysis system, a method for producing an optical arrangement for a spectral analysis system and a spectral analysis system are disclosed. In an embodiment the optical arrangement includes a carrier substrate having a placement area for a frame and a base area, and a diffraction grating movably arranged in the frame, wherein the frame is arranged on the placement area in an inclined placement position with respect to the base area so that the diffraction grating, arranged in a base position, is inclined with respect to the base area.

A method and apparatus are disclosed for measuring polarization of electromagnetic illumination. The method includes the steps of modulating a polarization state of illumination received from a target object to generate modulated intensity illumination, selectively measuring an intensity of the modulated intensity illumination by periodically gating an exposure of an imaging device to the modulated intensity illumination at a first gating frequency; responsive to the measured intensity, determining polarization parameters of the received illumination, and generating image data corresponding to the target object with a plurality of the polarization parameters, wherein the illumination from the target object is modulated in accordance with a first frequency and the first gating frequency is associated with and synchronized with at least the first frequency.

Apparatus can include an input aperture configured to provide an input beam, primary optics configured to collimate the input beam, a grism situated to receive the collimated input beam and to produce a wavelength dispersed beam, and secondary optics configured to receive and direct the wavelength dispersed beam to a detector. Primary optics can include a primary reflector including an off-axis parabolic mirror, wherein the off-axis parabolic mirror is configured to produce the collimated input beam. Secondary optics can include a first secondary reflector and a second secondary reflector, wherein the first secondary reflector is situated to receive and reflect the wavelength dispersed beam to the second secondary reflector and the second secondary reflector is situated to receive and direct the wavelength dispersed beam to the detector.

An optical arrangement for a spectral analysis system, a method for producing an optical arrangement for a spectral analysis system and a spectral analysis system are disclosed. In an embodiment the optical arrangement includes a carrier substrate having a placement area for a frame and a base area, and a diffraction grating movably arranged in the frame, wherein the frame is arranged on the placement area in an inclined placement position with respect to the base area so that the diffraction grating, arranged in a base position, is inclined with respect to the base area.

A method and apparatus are disclosed for measuring polarisation of electromagnetic illumination. The method includes the steps of modulating a polarisation state of illumination received from a target object to generate modulated intensity illumination, selectively measuring an intensity of the modulated intensity illumination by periodically gating an exposure of an imaging device to the modulated intensity illumination at a first gating frequency; responsive to the measured intensity, determining polarisation parameters of the received illumination, and generating image data corresponding to the target object with a plurality of the polarisation parameters, wherein the illumination from the target object is modulated in accordance with a first frequency and the first gating frequency is associated with and synchronised with at least the first frequency.

The invention relates to an apparatus (100) and method for Raman, photoluminescence or fluorescence spectroscopy.

According to the invention, the apparatus comprises an optical device (16) for polarisation splitting and modification, comprising a polarization splitter (18) and a compensator (17), the optical device (16) being configured and oriented to split the incident light beam (20) emitted onto the diffraction grating (12) into a first part (21) of the emitted light beam that is polarised according to a first polarisation state and a second part (22) of the emitted light beam that is polarised according to a second polarisation state, and the detection system (13) being suitable for receiving, in a first detection area (14), a spectrum of the first part (21) of the emitted light beam and, simultaneously, in a second detection area (15), a spectrum of the second part (22) of the emitted light beam.