Add to ORKGA broadband, low noise heterodyne receiver, suitable for astronomical use, has been built using a Pb alloy superconducting tunnel junction (SIS). The RF coupling is quasioptical via a bowtie antenna on a quartz lens and is accomplished without any tuning elements. In its preliminary version the double sideband receiver noise temperature rises from 205 K at 116 GHz to 815 K at 466 GHz. This is the most sensitive broadband receiver yet reported for sub-mm wavelengths. Its multi-octave sensitivity and low local oscillator power requirements make this receiver ideal for remote ground observatories or space-borne telescopes such as NASA's Large Deployable Reflector. A version of this receiver is now being built for NASA's Kuiper Airborne Observa...
The Caltech Submillimeter observatory (CSO) is one of the World's premier submillimeter telescopes. ...
The Caltech Submillimeter observatory (CSO) is one of the World's premier submillimeter telescopes. ...
Abstract: The developments in the field of low-noise receiving systems in the sub-THz range, perform...
Our group has designed a heterodyne submillimeter receiver that offers a very wide IF bandwidth of 1...
A 492 GHz quasioptical superconductor-insulator-superconductor (SIS) heterodyne receiver for submill...
We report on the development of low-noise quasi-optical SIS mixers for the frequency range 400-850 G...
We describe quasi-optical SIS mixers operating in the submillimeter band (500-750 GHz) which have ve...
The development and construction of an ultralow noise heterodyne receiver for millimeter wave astron...
We have developed, manufactured, and tested a waveguide mixer in the range 211-275 GHz on the basis ...
We have developed, manufactured, and tested a waveguide mixer in the range 211-275 GHz on the basis ...
We have developed, manufactured, and tested a waveguide mixer in the range 211-275 GHz on the basis ...
We have developed, manufactured, and tested a waveguide mixer in the range 211-275 GHz on the basis ...
We present a low noise SIS mixer developed for the 1.2 THz band of the heterodyne spectrometer of th...
We have developed, manufactured, and tested a waveguide mixer in the range 211-275 GHz on the basis ...
We present a low noise SIS mixer developed for the 1.2 THz band of the heterodyne spectrometer of th...
The Caltech Submillimeter observatory (CSO) is one of the World's premier submillimeter telescopes. ...
The Caltech Submillimeter observatory (CSO) is one of the World's premier submillimeter telescopes. ...
Abstract: The developments in the field of low-noise receiving systems in the sub-THz range, perform...
Our group has designed a heterodyne submillimeter receiver that offers a very wide IF bandwidth of 1...
A 492 GHz quasioptical superconductor-insulator-superconductor (SIS) heterodyne receiver for submill...
We report on the development of low-noise quasi-optical SIS mixers for the frequency range 400-850 G...
We describe quasi-optical SIS mixers operating in the submillimeter band (500-750 GHz) which have ve...
The development and construction of an ultralow noise heterodyne receiver for millimeter wave astron...
We have developed, manufactured, and tested a waveguide mixer in the range 211-275 GHz on the basis ...
We have developed, manufactured, and tested a waveguide mixer in the range 211-275 GHz on the basis ...
We have developed, manufactured, and tested a waveguide mixer in the range 211-275 GHz on the basis ...
We have developed, manufactured, and tested a waveguide mixer in the range 211-275 GHz on the basis ...
We present a low noise SIS mixer developed for the 1.2 THz band of the heterodyne spectrometer of th...
We have developed, manufactured, and tested a waveguide mixer in the range 211-275 GHz on the basis ...
We present a low noise SIS mixer developed for the 1.2 THz band of the heterodyne spectrometer of th...
The Caltech Submillimeter observatory (CSO) is one of the World's premier submillimeter telescopes. ...
The Caltech Submillimeter observatory (CSO) is one of the World's premier submillimeter telescopes. ...
Abstract: The developments in the field of low-noise receiving systems in the sub-THz range, perform...