Title :
A Compact Filter-Bank Waveguide Spectrometer for Millimeter Wavelengths
Author :
Bryan, Sean ; Che, George ; Groppi, Christopher ; Mauskopf, Philip ; Underhill, Matthew
Author_Institution :
Sch. of Earth & Space Exploration, Arizona State Univ., Tempe, AZ, USA
Abstract :
In this paper, we present the design and measurements of a 90 GHz prototype of a millimeter-wave channelizing spectrometer realized in rectangular waveguide for astronomical instrumentation. The device was fabricated using conventional high-precision metal machining, and the spectrometer can be tiled into a 2D array to fill the focal plane of a telescope. Measurements of the fabricated five-channel device matched well with electromagnetic simulations using HFSS and a cascaded S-matrix approach. This motivated the design of a 54-channel R=200 spectrometer that fills the single-moded passband of rectangular waveguide in the 130-175 GHz and 190-250 GHz atmospheric windows for millimeter-wave spectroscopic mapping and multi-object spectroscopy.
Keywords :
S-matrix theory; astronomical telescopes; channel bank filters; focal planes; machining; microwave spectrometers; millimetre wave devices; rectangular waveguides; 2D array; HFSS; astronomical instrumentation; atmospheric windows; cascaded S-matrix approach; compact filter-bank waveguide spectrometer; electromagnetic simulations; five-channel device; focal plane; frequency 130 GHz to 175 GHz; frequency 190 GHz to 250 GHz; frequency 90 GHz; high-precision metal machining; millimeter wavelengths; millimeter-wave channelizing spectrometer; millimeter-wave spectroscopic mapping; multiobject spectroscopy; rectangular waveguide; single-moded passband; telescope; Couplings; Detectors; Frequency measurement; Passband; Prototypes; Rectangular waveguides; Resonant frequency; Millimeter-wave devices; channel bank filters; microwave filters; spectroradiometers; spectroscopy;
Journal_Title :
Terahertz Science and Technology, IEEE Transactions on
DOI :
10.1109/TTHZ.2015.2433919
