Abstract: A dynamic light scattering apparatus includes a source configured for irradiating a sample with primary electromagnetic radiation, a detector configured for detecting secondary electromagnetic radiation generated by scattering the primary electromagnetic radiation at the sample, a refraction index determination unit including a movable optical element and configured to determine information indicative of a refraction index of the sample based on measurements of the secondary electromagnetic radiation for a plurality of different positions of the movable optical element, and a particle size determining unit configured to determine information indicative of particle size of particles in the sample by analyzing the detected secondary electromagnetic radiation and taking into account the refraction index determined by the refraction index determining unit.

Abstract: A dynamic light scattering apparatus includes a source configured for irradiating a sample with primary electromagnetic radiation, a detector configured for detecting secondary electromagnetic radiation generated by scattering the primary electromagnetic radiation at the sample, a refraction index determination unit including a movable optical element and configured to determine information indicative of a refraction index of the sample based on measurements of the secondary electromagnetic radiation for a plurality of different positions of the movable optical element, and a particle size determining unit configured to determine information indicative of particle size of particles in the sample by analyzing the detected secondary electromagnetic radiation and taking into account the refraction index determined by the refraction index determining unit.

Abstract: Device for determining information which is indicative for a particle size and/or a particle shape of particles in a sample, wherein the device comprises an electromagnetic radiation source for generating electromagnetic primary radiation, an electromagnetic radiation detector for detecting electromagnetic secondary radiation which is generated by an interaction of the electromagnetic primary radiation with the sample, and a determination unit which is adapted for determining the information which is indicative for the particle size and/or the particle shape based on the detected electromagnetic secondary radiation, wherein the determination unit is adapted for selectively determining the information firstly by means of an identification and a size determination and/or a shape determination of the particles on a detector image which is generated from the electromagnetic secondary radiation, and/or for determining the information secondly from temporal changes of the electromagnetic secondary radiation between

Abstract: An apparatus with an electromagnetic radiation source generates an incident-beam. A sample container accommodates a sample, receives the incident beam for interaction with the sample, and enables a scattered beam, which is to be detected, to propagate out of the sample container. An electromagnetic radiation detector detects the scattered beam which is received from the sample container. The sample container is oriented with regard to a direction of the incident beam so that an incident trajectory of the incident beam directly before propagating into the sample container up to a symmetry axis of the sample container is symmetric with a scattered trajectory of the scattered beam from the symmetry axis up to a position of the scattered beam directly after having left the sample container, such that the scattered trajectory outside of the sample container is independent of a refraction index of the sample container and of the sample.

Abstract: An apparatus for measuring information indicative of electromobility in a sample includes a light source for generating coherent light, a modulator that modulates the optical path length, particularly a reciprocatable modulator arranged for modulating a first part of the generated light, a sample cell for accommodating the measured sample for applying an electric field to the sample and for receiving a second part of the generated light for interaction with the sample in the electric field, a modulator monitor for monitoring the modulator by detecting interference between a first part of the light coming from the modulator and an unmodulated third part of the generated light, and a light detector arranged separately from the modulator monitor for detecting interference between a second part of light coming from the modulator and light received from the sample cell. The detected signal includes the information indicative of electromobility in the sample.

Abstract: An apparatus with an electromagnetic radiation source generates an incident-beam. A sample container accommodates a sample, receives the incident beam for interaction with the sample, and enables a scattered beam, which is to be detected, to propagate out of the sample container. An electromagnetic radiation detector detects the scattered beam which is received from the sample container. The sample container is oriented with regard to a direction of the incident beam so that an incident trajectory of the incident beam directly before propagating into the sample container up to a symmetry axis of the sample container is symmetric with a scattered trajectory of the scattered beam, which is to be detected, from the symmetry axis up to a position of the scattered beam directly after having left the sample container, such that the scattered trajectory outside of the sample container is independent of a refraction index of the sample container and of the sample.

Abstract: An apparatus for measuring information indicative of electromobility in a sample includes a light source for generating coherent light, a modulator that modulates the optical path length, particularly a reciprocatable modulator arranged for modulating a first part of the generated light, a sample cell for accommodating the measured sample for applying an electric field to the sample and for receiving a second part of the generated light for interaction with the sample in the electric field, a modulator monitor for monitoring the modulator by detecting interference between a first part of the light coming from the modulator and an unmodulated third part of the generated light, and a light detector arranged separately from the modulator monitor for detecting interference between a second part of light coming from the modulator and light received from the sample cell. The detected signal includes the information indicative of electromobility in the sample.