Established semiconductor process technologies are demonstrated to be suitable for the fabrication of high temperature superconductor Josephson junctions. Single YBa2Cu3O7 bridges have been modified by local oxygen ion irradiation through a narrow slit in an implantation mask, which was formed by electron-beam lithography and reactive ion etching. The influence of the slit dimension, the mask thickness, and the irradiation dose have been investigated systematically. The critical current and the normal resistance of the modified microbridges were found to be controllable by these parameters achieving a great variety of different I/V curves, i.e., resistive or superconductor/normal/superconductor (SNS) Josephson junction behavior. Further investigations were performed on SNS junctions. Microwave irradiation of the microbridges exhibits Shapiro steps in the I/V characteristics. In de superconducting quantum interference devices a voltage modulation as a function of an applied magnetic flux is observed.