Abstract: A method and system in a data processing system are disclosed for improving video sequence image resolution when creating an enlarged final image from an initial image included within the video sequence. An enlargement factor is determined for creating a final image having a final image size from an initial image having an initial image size, where the enlargement factor is the quotient of the final image size divided by the initial image size. An intermediate factor is established to optimize the image resolution and minimizing the hardware required to produce the image. In response to the enlargement factor being less than the intermediate factor, the final image is created from the initial image utilizing the enlargement factor and bilinear interpolation. In response to the enlargement factor being greater than the intermediate factor, an intermediate image is created. The intermediate image has an intermediate size which is greater than the initial image size and less than the final image size.

Abstract: A method of growing superlattice crystals containing alternating layers of two semiconductor materials in which misfit and threading dislocations are eliminated by growing the layers of superlattice crystal to some thickness less than that which will generate new dislocations, and matching the average lattice parameter of the superlattice with that of substrate so misfit dislocations between the superlattice and the substrate are not formed.

Abstract: A coaxial attenuator, for attenuating baseband picosecond pulses with Fourier components in the high microwave frequency range and for calibrating pulse measuring instruments, is disclosed. A fast pulse, propagating along the attenuator, is split into two waves at a transition plane formed by an intermediate tubular conductor and an outer conductor. The purpose of the transitional plane is, in addition to splitting the incoming wave, to attenuate the wave. One of the attenuated waves propagates along the inside of the conductor of the intermediate section to a pulse measuring instrument for viewing. The other attenuated wave is delayed before propagating along the same intermediate conductor to be viewed on said viewing device. The known time lag between the two wavefronts is used for time calibrating pulse measuring instruments.