Abstract: An apparatus and method to measure optical intensity and phase of one or several light pulses is described. The apparatus combines a spectrally resolved interferometric asymmetric single-shot optical autocorrelator and imaging spectrograph. The asymmetric design of the optical autocorrelator based on second harmonic generation eliminates time-direction ambiguity, while a spectrally resolved interferometric pattern allows the performance of self-check and self-calibration of the apparatus and substantially improves convergence, robustness and reliability of the computational retrieval algorithm.

Abstract: A high power TEM.sub.00 mode Nd:YLF solid state laser includes at least two pumped Nd:YLF solid state rods in series within a laser resonator. A spherical lens may be incorporated within the resonator as required for establishing, in concert with the rods and resonator end mirrors, a large intracavity beam diameter at the position of the rods. A cylindrical lens may be provided to compensate for astigmatic thermal focusing of the Nd:YLF rods, or else the rods may be used in pairs, in which case the rods are rotated by 90.degree. about the laser axis with respect to each other, and a half-wave plate is inserted between the rods of each pair to maintain oscillation at a single wavelength.

Abstract: A low energy laser system for surgical purposes, in particular, ophthalmic surgery, comprises a source of pulsed laser energy. Er:YAG lasers having a wavelength of 3 microns are preferred. Optical fibers which are responsive to the laser energy deliver amounts of the laser energy to selected body tissue sufficient to perform delicate surgical procedures without adverse biological or chemical interaction with the tissue. In particular, a compound fiber assembly is preferred for delivery of laser energy having a wavelength above 2 microns which compound fiber comprises an elongated fiber body comprised of fluoride based glass, a surgical optical fiber tip of a hard, moderately transparent mineral, such as quartz or sapphire, and an element for coupling the optical fiber tip to the fluoride glass body.