Abstract: An apparatus for detecting one or more chemicals in a sample, the apparatus including: a scanning unit including a light source configured to scan the sample using a light beam having a linear-shaped illumination; a dispersive element configured to receive light from the sample and disperse the received light spatially in a parallel manner; a spatial light modulator configured to receive the dispersed light and select one or more wavelength bands of the dispersed light; and a detection unit including a one-dimensional array of detectors configured to receive the selected one or more wavelength bands and detect the one or more chemicals in the sample based on the selected one or more wavelength bands, each detector of the array of detectors being a photon detector having a detection surface having a dimension below 50 ?m, the dimension being in a direction of the linear-shaped illumination.

Abstract: The present invention relates to a photodetector array for capturing image data, comprising: —photodetector cells arranged on a substrate, each including a single-photon avalanche diode, wherein the active areas of the photodetector cells are neighbored along a hexagonal grid; —microlenses, having a hexagonal or circular shape, each arranged on one photodetector cell to focus light onto the photodiode.

Abstract: A light microscope has a light source for illuminating a specimen, a sensor array comprised of photon-counting detector elements for measuring detection light coming from the specimen, and a control device for controlling the sensor array. The control device is configured for flexibly binning the photon-counting detector elements into one or more super-pixels.

Abstract: The invention relates to an image sensor comprising a photodetector array including neighboring photodetector elements, each photodetector element comprising: —a photodetector cell having a photodiode and a reset unit; —a cell control unit coupled with the photodetector cell and configured to reset the photodiode by means of the reset unit; wherein the cell control unit is configured to asynchronously effect resetting of the photodiode after a given dead time after detection of a photon.

Abstract: A light microscope has a light source for illuminating a specimen, a photon-counting detector array with a plurality of photon-counting detector elements for measuring detection light coming from the specimen, wherein the photon-counting detector elements are configured to output respective measured photon count rates, and a control device for controlling the photon-counting detector array. The control device is configured to individually influence the measurable photon count rates which are simultaneously measurable with different photon-counting detector elements and/or which are consecutively measurable with the same photon-counting detector element. Furthermore, in an imaging method the measurable photon count rates of photon-counting detector elements are individually influenced to increase the signal-to-noise ratio for the photon-counting detector array.

Abstract: A system for photon correlation of an illuminated object and/or a light source is provided. The system includes a light source for illuminating the object and an optical system having an object-facing side configured to face the object or the light source and a projection side with the projection side having a focal plane. The system also includes a single-chip single photon avalanche photodiode (SPAD) array arranged at the focal plane and a timing circuit associated with the single-chip SPAD array for measuring arrival times of photons detected by the single-chip SPAD array.

Abstract: A method for operating a light microscope comprises emitting and guiding a plurality of illumination light beams towards a specimen (6) to form a plurality of separated illumination light spots (2A, 2B, 2C, 2D) at the specimen; and guiding detection light beams (11) coming from the illumination light spots (2A, 2B, 2C, 2D) to a detector (10) comprising a plurality of sensor arrays (31-34). Each sensor array (31-34) comprises photon-counting detector elements (40), and detection light beams (11) from different illumination light spots (2A, 2B, 2C, 2D) are guided to different sensor arrays (31-34). Measured signals from the sensor arrays (31-34) are analysed to determine positional information about the light spots (15) on the sensor arrays (31 -34). It is adjusted where the light spots (15) hit the sensor arrays (31-34) based on the positional information. A corresponding light microscope is furthermore disclosed.

Abstract: The present invention relates to a photodetector array for capturing image data, comprising: photodetector cells arranged on a substrate, each including a single-photon avalanche diode, wherein the active areas of the photodetector cells are neighbored along a hexagonal grid; microlenses, having a hexagonal or circular shape, each arranged on one photodetector cell to focus light onto the photodiode.

Abstract: The invention relates to an image sensor comprising a photodetector array including neighboring photodetector elements, each photodetector element comprising:—a photodetector cell having a photodiode and a reset unit;—a cell control unit coupled with the photodetector cell and configured to reset the photodiode by means of the reset unit; wherein the cell control unit is configured to asynchronously effect resetting of the photodiode after a given dead time after detection of a photon.

Abstract: A light microscope has a light source for illuminating a specimen, a sensor array comprised of photon-counting detector elements for measuring detection light coming from the specimen, and a control device for controlling the sensor array. The control device is configured for flexibly binning the photon-counting detector elements into one or more super-pixels.

Abstract: A system for photon correlation of an illuminated object and/or a light source, including a light source for illuminating the object or to correlate, an optical system having an object-facing side configured to face the object or the light source and a projection side, the projection side having a focal plane, a single-chip single photon avalanche photodiode (SPAD) array arranged at the focal plane, and a timing circuit associated with the single-chip SPAD array for measuring arrival times of photons detected by the single-chip SPAD array.

Abstract: A light microscope has a light source for illuminating a specimen, a photon-counting detector array with a plurality of photon-counting detector elements for measuring detection light coming from the specimen, wherein the photon-counting detector elements are configured to output respective measured photon count rates, and a control device for controlling the photon-counting detector array. The control device is configured to individually influence the measurable photon count rates which are simultaneously measurable with different photon-counting detector elements and/or which are consecutively measurable with the same photon-counting detector element. Furthermore, in an imaging method the measurable photon count rates of photon-counting detector elements are individually influenced to increase the signal-to-noise ratio for the photon-counting detector array.