Demonstration of a phase-lockable microwave to submillimeter wave sweeper
Elliott R. Brown, Leo W. Hollberg, Alexander K. McIntosh, Steve B. Waltman, Optics & Photonics 40, SPIE's 1996 International Symposium on Optical Science, Engineering, and Instrumentation 205647 1996-08-04|1996-08-09 Denver, CO, United States, Millimeter and Submillimeter Waves and Applications III 2842, Millimeter Wave Active Devices 2
The development of low-temperature-grown GaAs photomixers enables the construction of a microwave to submillimeter- wave source capable of large frequency sweeps. By utilizing semiconductor diode lasers to drive the photomixer, this source is all solid-state and compact, and has small power consumption. Frequency stabilization of the semiconductor diode lasers allows this source to be phase-locked to an external microwave reference. Two 805 nm extended-cavity- diode lasers are mixed in a low-temperature-grown GaAs photoconductive photomixer. The difference-frequency mixing product is radiated by a planar spiral antenna and collimated by a Si lens. This output is phase-locked to a microwave reference by downconverting it in a whisker- contacted Schottky-barrier diode harmonic mixer and using the output to offset-phase-lock one laser to the other. The photomixer output power is 300 nW at 200 GHz and 10 nW at 1.6 THz, as measured by a 4 K InSb bolometer calibrated with a methanol laser and a power meter at 526 and 812 GHz
Chapter, 1996