Abstract: In a polarization rotator device, a thin-film magneto-optic medium is magnetized by a thin-film magnet. To serve as an optical isolator, the device may include polarizers. In such an optical isolator, in which the magneto-optic medium was formed as a Bi-YIG triple-layer structure, and the thin-film magnet as a single-crystal iron-cobalt layer, an extinction ratio better than -20 dB was realized.

Abstract: The sensitivity of localized photochemical etching to the optical and electrical properties of multilayered semiconductor materials is utilized for selectively etching a laterally extending undercut in a buried layer. The semiconductor body is immersed in a suitable etching solution and a beam of light of appropriate wavelength and intensity is directed onto the semiconductor solution interface. The buried layer has a longer diffusion length for photogenerated carriers than the layers adjacent thereto, casuing carriers to diffuse away from the illuminated region within the buried layer and thereby etch the buried layer laterally, undercutting the adjacent layers.

Abstract: An integrated fiber optic coupler useful for the optical transmission of data from a light source to a detector located on a semiconductor chip which comprises a semiconductor wafer with a cavity etched into a surface, means wthin the cavity for converting light into an electrical signal, an electroconductive metal deposited on the surface of the semiconductor wafer around the opening of the cavity forming an electrical connection between the means for converting light into an electrical signal and circuitry etched into the wafer and an optical fiber inserted into the cavity and affixed to the semiconductor wafer.

Abstract: A method of growing patterned films on a substrate in a deposition chamber without masking, the method consisting of the following steps: pressurizing the chamber with a fluid medium to form a thin absorption layer on the substrate; evacuating the chamber to remove excess fluid medium; prenucleating portions of the substrate with a focused energy beam; repressurizing the chamber with a fluid medium; and inducing deposition of material from the fluid medium and thereby growing a patterned film with deposition occuring primarily on the prenucleated portions of the substrate.

Abstract: A method of growing patterned films on a substrate in a deposition chamber without masking, the method consisting of the following steps: pressurizing the chamber with a fluid medium to form a thin absorption layer on the substrate; evacuating the chamber to remove excess fluid medium; prenucleating portions of the substrate with a focused energy beam; repressurizing the chamber with a fluid medium; and inducing deposition of material from the fluid medium and thereby growing a patterned film with deposition occurring primarily on the prenucleated portions of the substrate.

Abstract: An apparatus and method for depositing a layer of a surface-compatible material from the fluid phase onto a selected surface of a substrate body in a fluid deposition chamber features a laser source of optically focused energy directed toward the body surface in a selected pattern. The energy is focused at a position adjacent the selected surface. Apparatus is provided for introducing a fluid medium adjacent the surface of the body. The medium has at least one component which absorbs a portion of the incident laser energy at the selected frequency for effecting photodecomposition or photolysis of the component in the fluid phase. Thereby, the product(s) of the photolysis process are deposited in the selected pattern on the substrate surface. The pattern may be fixed in position or may be optically or mechanically scanned across the substrate body. Thereby, metal layers, metal interconnects, pn junction and ohmic contact forming layers, selectively doped regions, etc.

Abstract: Isotopes are separated from an isotopically mixed molecular dopant dissolved in a cryogenic liquid. The solution is exposed to infrared laser light in order to selectively vibrationally excite a particular molecular species which contains the isotope or isotopes that are to be separated. The excited species then is reacted or dissociated to form recoverable reaction products rich in the isotope desired.