Abstract: The various embodiments of the present invention relate to a polymerization reactor where the agitator mixing performance is optimized for use with a high activity catalyst and methods for developing the same.

Abstract: The various embodiments of the present invention relate to a polymerization reactor where the agitator mixing performance is optimized for use with a high activity catalyst and methods for developing the same.

Abstract: In a stirred tank chemical reactor the mean age of the reactor contents affects a number of properties of the product, including for example the homogeneity of the product. The mean average age of the reactor contents can be determined by constructing a transparent model of the reactor and filling it with a fluid containing a fluorescent dye and having flow properties comparable to those of the reactor in use. A light is shone on the fluid as it is stirred under reaction conditions and a clear fluid flow into the model. Pictures are taken of the reactor contents and the mean fluid age of the contents of the model are determined relative to the exit age of the contents. This approach can be applied to determine for example which reactor ports to use, what agitator to use, what flow rates to use to improve reactor function.

Abstract: In a stirred tank chemical reactor the mean age of the reactor contents affects a number of properties of the product, including for example the homogeneity of the product. The mean average age of the reactor contents can be determined by constructing a transparent model of the reactor and filling it with a fluid containing a fluorescent dye and having flow properties comparable to those of the reactor in use. A light is shone on the fluid as it is stirred under reaction conditions and a clear fluid flow into the model. Pictures are taken of the reactor contents and the mean fluid age of the contents of the model are determined relative to the exit age of the contents. This approach can be applied to determine for example which reactor ports to use, what agitator to use, what flow rates to use to improve reactor function.

Abstract: Systems and methods for reducing beam instability in laser annealing are disclosed. The method includes: directing a conditioned laser beam through an opening in an aperture using a beam-redirecting element; forming a line image on the surface of the semiconductor wafer by imaging the aperture onto the surface, thereby locally heating the surface to form an annealing temperature distribution; detecting a thermal emission from the locally heated wafer surface; determining the annealing temperature distribution from the detected thermal emission; determining from the annealing temperature distribution a line-image intensity profile that includes a time-varying amount of slope; and adjusting the beam-redirecting element to redirect the laser beam to reduce or eliminate the time-varying amount of slope in the line-image intensity profile.

Abstract: Systems and methods for reducing beam instability in laser annealing are disclosed. The method includes: directing a conditioned laser beam through an opening in an aperture using a beam-redirecting element; forming a line image on the surface of the semiconductor wafer by imaging the aperture onto the surface, thereby locally heating the surface to form an annealing temperature distribution; detecting a thermal emission from the locally heated wafer surface; determining the annealing temperature distribution from the detected thermal emission; determining from the annealing temperature distribution a line-image intensity profile that includes a time-varying amount of slope; and adjusting the beam-redirecting element to redirect the laser beam to reduce or eliminate the time-varying amount of slope in the line-image intensity profile.

Abstract: Each sensor of a linear array of sensors includes, in part, a sensing electrode and an associated feedback circuit. The sensing electrodes are adapted to be brought in proximity to a flat panel having formed thereon a multitude of pixel electrodes in order to capacitively measure the voltage of the pixel electrodes. Each feedback circuit is adapted to actively drive its associated electrode via a feedback signal so as to maintain the voltage of its associated electrode at a substantially fixed bias. Each feedback circuit may include an amplifier having a first input terminal coupled to the sensing electrode and a second input terminal coupled to receive a biasing voltage. The output signal of the amplification circuit is used to generate the feedback signal that actively drives the sensing electrode. The biasing voltage may be the ground potential.