A 2.5-THz receiver front end for spaceborne applications
IEEE transactions on microwave theory and techniques, 2000•ieeexplore.ieee.org
The OH radical is an important player in known ozone depletion cycles; however, due to its
location in the atmosphere, it must be studied from either a balloon or spaceborne platform.
For long-term mapping over large portions of the earth, a spaceborne platform is the most
desirable. NASA's Earth Observing System Microwave Limb Sounder instrument is slated to
house a 2.5-THz Schottky-diode receiver for such measurements. In this paper, we describe
the design, fabrication, and testing of the receiver front end. Measured double-sideband …
location in the atmosphere, it must be studied from either a balloon or spaceborne platform.
For long-term mapping over large portions of the earth, a spaceborne platform is the most
desirable. NASA's Earth Observing System Microwave Limb Sounder instrument is slated to
house a 2.5-THz Schottky-diode receiver for such measurements. In this paper, we describe
the design, fabrication, and testing of the receiver front end. Measured double-sideband …
The OH radical is an important player in known ozone depletion cycles; however, due to its location in the atmosphere, it must be studied from either a balloon or spaceborne platform. For long-term mapping over large portions of the earth, a spaceborne platform is the most desirable. NASA's Earth Observing System Microwave Limb Sounder instrument is slated to house a 2.5-THz Schottky-diode receiver for such measurements. In this paper, we describe the design, fabrication, and testing of the receiver front end. Measured double-sideband (DSB) receiver noise temperatures of better than 9000 K are reproducibly achieved with all devices of our best design. Estimated mixer noise is 3500-K DSB for optimal bias conditions and at room temperature. Selected components will be used in the first terahertz heterodyne receiver to be flown in space.
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