论文信息 - A Complete Monolithically-Integrated Circuit for All Optical Generation of Millimeter-Wave Frequencies

A Complete Monolithically-Integrated Circuit for All Optical Generation of Millimeter-Wave Frequencies

Generation of millimeter-wave electronic signals and power is required for high-frequency communication links, RADAR, remote sensing and other applications. However, in the 30 to 300 GHz mm-wave regime, signal sources are bulky and inefficient. All-optical generation of mm-wave signals promises to improve efficiency to as much as 30 to 50 percent with output power as high as 100 mW. All of this may be achieved while taking advantage of the benefits of monolithic integration to reduce the overall size to that of a single semiconductor chip only a fraction of a square centimeter in size. This report summarizes the development of the first monolithically integrated all-optical mm-wave signal generator ever built. The design integrates a mode-locked semiconductor ring diode laser with an optical amplifier and high-speed photodetector into a single optical integrated circuit. Frequency generation is demonstrated at 30, 60 and 90 Ghz.

[1] John P. Hohimer,et al. Improving the performance of semiconductor ring lasers by controlled reflection feedback , 1992 .

[2] Tatsuo Itoh,et al. Velocity-matched distributed photodetectors with high-saturation power and large bandwidth , 1996, IEEE Photonics Technology Letters.

[3] Vincent M. Hietala,et al. Traveling-wave photodetectors for high-power, large-bandwidth applications , 1995 .

[4] John P. Hohimer,et al. Semiconductor ring lasers with reflection output couplers , 1993 .

[5] John P. Hohimer,et al. Passive mode locking of monolithic semiconductor ring lasers at 86 GHz , 1993 .

[6] Albert G. Baca,et al. Thermally stable oxygen implant isolation of p‐type Al0.2Ga0.8As , 1993 .

[7] R. P. Bryan,et al. Impurity induced disordered quantum well heterostructure stripe geometry lasers by MeV oxygen implantation , 1989 .

[8] J.E. Bowers,et al. Travelling-wave photodetectors with 172-GHz bandwidth and 76-GHz bandwidth-efficiency product , 1995, IEEE Photonics Technology Letters.