Abstract: A system may include a laser source configured to generate a first laser light beam, an atom trap, and a multi-channel acousto-optic modulator (AOM). The multi-channel AOM may include a beamsplitter to split the first laser light beam into a plurality of second laser light beams for the atom trap, a common acousto-optic medium configured to receive the plurality of second laser light beams, and a respective plurality of electrodes coupled to the common acousto-optic medium for each of the second laser light beams. The system may also include a plurality of radio frequency (RF) drivers each configured to generate respective RF drive signals for each of the plurality of electrodes.

Abstract: Systems and methods for tailoring fluid and energy interaction through surface texturing. The methods comprise: receiving behavior input data specifying known or modeled interactions between a material and pre-solved solution surfaces, discrete input data specifying parameters of a surface to be textured, and continuous input data specifying ranges of values for environmental characteristics that the surface is to be subjected to during use; transforming the behavior input data into a composite response surface comprising a weighted combination of the pre-solved solution surfaces generated based on the discrete input data and the continuous input data; determining an optimized surface texture for the surface based on the composite response surface and desired behavior data specifying a desired interaction between the material and the surface to be textured; and outputting the optimized surface texture (e.g., to a surface texturing machine) so that the optimized surface texture is applied to the surface.

Abstract: A laser system may include a laser source configured to generate a first laser light beam, a beam stabilizer downstream from the laser source and configured to stabilize the first laser light beam, and a beamsplitter downstream from the beam stabilizer and configured to split the stabilized first laser light beam into a plurality of second laser light beams. The system may further include a multi-channel acousto-optic modulator (ACM) including a common acousto-optic medium configured to receive the plurality of second laser light beams, and a respective phase array transducer comprising a plurality of electrodes coupled to the common acousto-optic medium for each of the second laser light beams. The system may further include a plurality of radio frequency (RF) drivers each configured to generate respective RF drive signals for the phased array transducer electrodes.

Abstract: A method may include generating a laser light beam, stabilizing the laser light beam using a beam stabilizer, splitting the laser light beam using a first beamsplitter into a first front side laser light beam and a back side laser light beam for a back side of an ion trap, directing the front side laser light beam to a second beamsplitter using an input telescope, and splitting the first front side laser light beam using the second beamsplitter into second front side laser light beams. The method may further include receiving the front side laser light beams at a common acousto-optic medium, generating respective RF drive signals for electrodes coupled to the common acousto-optic medium for each of the second front side laser light beams using RF drivers, and directing the second front side laser light beams to a front side of the ion trap using an output telescope.

Abstract: A laser system may include a laser source configured to generate a laser light beam, a beam stabilizer downstream from the laser light source, and an acousto-optic modulator (AOM). The AOM may include an acousto-optic medium configured to receive the laser light beam, and a phased array transducer including a plurality of electrodes coupled to the acousto-optic medium and configured to cause the acousto-optic medium to output a zero order laser light beam and a first order diffracted laser light beam. The system may further include a photodetector configured to receive a sampled laser light beam split from the zero order beam and generate a feedback signal associated therewith, and an RF driver configured to generate an RF drive signal to the phased array transducer electrodes so that noise is diverted to the first order diffracted laser light beam based upon the feedback signal.

Abstract: Embodiments are described for receiving first data related to an amount of a first component in a multi-component liquid. A gain may be determined based on the first data. The multi-component liquid may be separated into at least two components. The gain may then be used to control a position of an interface between two separated components of the multi-component liquid, such as by using the gain in changing a speed of a pump pumping at least one of the components.

Abstract: A compliant cam system includes a cam having a cam body rotatable with respect to a cam rotational axis. The cam body has a cam body center spaced from the cam rotational axis. At least a portion of the cam is an elastically compressible material. A follower having at least one follower surface is in contact with the compressible material portion of the cam. A cam non-deflected condition is defined when an elastically compressible material portion outer surface is in contact with the cam follower surface prior to deflection of the elastically compressible material portion. The cam when thereafter rotated with respect to the cam rotational axis moves the cam body center toward the follower. The elastically compressible material portion deflects, defining a deflected condition, creating a biasing force acting toward the follower, and releasably frictionally engaging the elastically compressible material portion with the follower.

Abstract: A compliant cam system includes a one-piece cam including: a cam body rotatable with respect to a cam rotational axis and a having a cam body center spaced from the cam rotational axis and an outer surface; and a deflecting arm freely extending from the cam body having a free end elastically deflected toward the cam body in an arm deflected condition. A follower has at least one follower surface in direct contact with the cam outer surface at the deflecting arm. An arm non-deflected condition is defined when the outer surface is in direct contact with the cam follower surface prior to deflection of the deflecting arm. The cam when thereafter rotated with respect to the cam rotational axis acts to move the cam body center toward the follower thereby deflecting the deflecting arm to the deflected condition creating a biasing force acting toward the follower.

Abstract: According to some embodiments, an automobile insurance resource platform may interact with a claim professional via a graphical user interface tool, and input data associated with an automobile insurance claim is received from the claim professional. Compliance information may be received from the claim professional via a regulation compliance checklist interface, and action plan information may be automatically created. An indication of the action plan information may then be displayed to the claim professional via a compliance issue area in a resolution interface of the graphical user interface tool.

Abstract: Disclosed herein is a process for purifying aryl carboxylic acids, in particular terephthalic acid, wherein the impure acid is dissolved or dispersed in an ionic liquid and a non-solvent is added to precipitate the purified acid. The present disclosure further relates to compositions comprising terephthalic acid and one or more ionic liquids.

Abstract: A compliant follower cam system includes a cam rotatable about a cam rotational axis continuously aligned with a cam displacement axis. The cam has a body center spaced from the rotational axis. A compliant follower has an elastically deformable first contact wall positioned proximate to a cavity. The first contact wall is directly contacted by the cam body outer surface. A compliant follower non-deflected condition occurs when a first contact wall outer surface directly contacts the cam body outer surface prior to deflection of the first contact wall, with the cam body center out of alignment with the displacement axis. Rotating the cam moves the body center toward the compliant follower into alignment with the displacement axis. The cam thereby deflects the first contact wall into the cavity defining a compliant follower deflected condition and creates a biasing force releasably frictionally engaging the first contact wall and cam.

Abstract: A compliant cam system includes a cam having a cam body rotatable with respect to a cam rotational axis. The cam body has a cam body center spaced from the cam rotational axis. At least a portion of the cam is an elastically compressible material. A follower having at least one follower surface is in contact with the compressible material portion of the cam. A cam non-deflected condition is defined when an elastically compressible material portion outer surface is in contact with the cam follower surface prior to deflection of the elastically compressible material portion. The cam when thereafter rotated with respect to the cam rotational axis moves the cam body center toward the follower. The elastically compressible material portion deflects, defining a deflected condition, creating a biasing force acting toward the follower, and releasably frictionally engaging the elastically compressible material portion with the follower.

Abstract: A compliant cam system includes a cam having a cam body rotatable with respect to a cam rotational axis. The cam body has a cam body center spaced from the cam rotational axis. At least a portion of the cam is an elastically compressible material. A follower having at least one follower surface is in contact with the compressible material portion of the cam. A cam non-deflected condition is defined when an elastically compressible material portion outer surface is in contact with the cam follower surface prior to deflection of the elastically compressible material portion. The cam when thereafter rotated with respect to the cam rotational axis moves the cam body center toward the follower. The elastically compressible material portion deflects, defining a deflected condition, creating a biasing force acting toward the follower, and releasably frictionally engaging the elastically compressible material portion with the follower.

Abstract: Disclosed herein is a process for purifying aryl carboxylic acids, in particular terephthalic acid, wherein the impure acid is dissolved or dispersed in an ionic liquid and a non-solvent is added to precipitate the purified acid. The present disclosure further relates to compositions comprising terephthalic acid and one or more ionic liquids.

Abstract: A compliant cam system includes a cam having a cam body rotatable with respect to a cam rotational axis. The cam body has a cam body center spaced from the cam rotational axis. At least a portion of the cam is an elastically compressible material. A follower having at least one follower surface is in contact with the compressible material portion of the cam. A cam non-deflected condition is defined when an elastically compressible material portion outer surface is in contact with the cam follower surface prior to deflection of the elastically compressible material portion. The cam when thereafter rotated with respect to the cam rotational axis moves the cam body center toward the follower. The elastically compressible material portion deflects, defining a deflected condition, creating a biasing force acting toward the follower, and releasably frictionally engaging the elastically compressible material portion with the follower.

Abstract: A compliant cam system includes a one-piece cam including: a cam body rotatable with respect to a cam rotational axis and a having a cam body center spaced from the cam rotational axis and an outer surface; and a deflecting arm freely extending from the cam body having a free end elastically deflected toward the cam body in an arm deflected condition. A follower has at least one follower surface in direct contact with the cam outer surface at the deflecting arm. An arm non-deflected condition is defined when the outer surface is in direct contact with the cam follower surface prior to deflection of the deflecting arm. The cam when thereafter rotated with respect to the cam rotational axis acts to move the cam body center toward the follower thereby deflecting the deflecting arm to the deflected condition creating a biasing force acting toward the follower.

Abstract: A compliant follower cam system includes a cam rotatable about a cam rotational axis continuously aligned with a cam displacement axis. The cam has a body center spaced from the rotational axis. A compliant follower has an elastically deformable first contact wall positioned proximate to a cavity. The first contact wall is directly contacted by the cam body outer surface. A compliant follower non-deflected condition occurs when a first contact wall outer surface directly contacts the cam body outer surface prior to deflection of the first contact wall, with the cam body center out of alignment with the displacement axis. Rotating the cam moves the body center toward the compliant follower into alignment with the displacement axis. The cam thereby deflects the first contact wall into the cavity defining a compliant follower deflected condition and creates a biasing force releasably frictionally engaging the first contact wall and cam.

Abstract: Disclosed herein is a process for purifying aryl carboxylic acids, in particular terephthalic acid, wherein the impure acid is dissolved or dispersed in an ionic liquid and a non-solvent is added to precipitate the purified acid. The present disclosure further relates to compositions comprising terephthalic acid and one or more ionic liquids.