Add to ORKGWe recently reported (1996) a quasi-optical SIS mixer which used Nb/Al-oxide/Nb tunnel junctions and a normal-metal (Al) tuning circuit to achieve an uncorrected receiver noise temperature of 840 K (DSB) at 1042 GHz. Here we present results on several different device designs, which together cover the 300-1200 GHz frequency range. The mixers utilize an antireflection-coated silicon hyper-hemispherical lens, a twin-slot antenna, and a two-junction tuning circuit. The broad-band frequency response was measured using Fourier transform spectrometry (FTS), and is in good agreement with model calculations. Heterodyne tests were carried out from 400 GHz up to 1040 GHz, and these measurements agree well with the FTS results and with calculations ba...
A 410-495 GHz heterodyne receiver, with an array of two Nb/Al2O3/Nb tunneljunctions as mixing elemen...
We describe a new quasi-optical SIS mixer design which attempts to obtain efficient radiation coupli...
We describe a new quasi-optical SIS mixer design which attempts to obtain efficient radiation coupli...
We recently reported (1996) a quasi-optical SIS mixer which used Nb/Al-oxide/Nb tunnel junctions and...
We report on the development of low-noise quasi-optical SIS mixers for the frequency range 400-850 G...
We report on the continuing development of submillimetre quasi-optical slot antenna SIS mixers, whic...
We describe quasi-optical SIS mixers operating in the submillimeter band (500-750 GHz) which have ve...
We describe a 1 THz quasioptical SIS mixer which uses a twin-slot antenna, an antireflection-coated ...
This thesis describes the development of low-noise heterodyne receivers at THz frequencies for submi...
The capacitance of superconducting tunnel junctions can seriously degrade the performance of quasipa...
Abstruct- We report on the development of low-noise quasi-optical SIS mixers for the frequency range...
SIS heterodyne mixer technology based on niobium tunnel junctions has now been pushed to frequencies...
Abstract-We describe quasi-optical SIS mixers op-erating in the submillimeter band (500-750 GHz) whi...
Superconductor-Insulator-Superconductor (SIS) tunnel junction mixers are now commonly used in as- tr...
We describe a new quasi-optical SIS mixer design which attempts to obtain efficient radiation coupli...
A 410-495 GHz heterodyne receiver, with an array of two Nb/Al2O3/Nb tunneljunctions as mixing elemen...
We describe a new quasi-optical SIS mixer design which attempts to obtain efficient radiation coupli...
We describe a new quasi-optical SIS mixer design which attempts to obtain efficient radiation coupli...
We recently reported (1996) a quasi-optical SIS mixer which used Nb/Al-oxide/Nb tunnel junctions and...
We report on the development of low-noise quasi-optical SIS mixers for the frequency range 400-850 G...
We report on the continuing development of submillimetre quasi-optical slot antenna SIS mixers, whic...
We describe quasi-optical SIS mixers operating in the submillimeter band (500-750 GHz) which have ve...
We describe a 1 THz quasioptical SIS mixer which uses a twin-slot antenna, an antireflection-coated ...
This thesis describes the development of low-noise heterodyne receivers at THz frequencies for submi...
The capacitance of superconducting tunnel junctions can seriously degrade the performance of quasipa...
Abstruct- We report on the development of low-noise quasi-optical SIS mixers for the frequency range...
SIS heterodyne mixer technology based on niobium tunnel junctions has now been pushed to frequencies...
Abstract-We describe quasi-optical SIS mixers op-erating in the submillimeter band (500-750 GHz) whi...
Superconductor-Insulator-Superconductor (SIS) tunnel junction mixers are now commonly used in as- tr...
We describe a new quasi-optical SIS mixer design which attempts to obtain efficient radiation coupli...
A 410-495 GHz heterodyne receiver, with an array of two Nb/Al2O3/Nb tunneljunctions as mixing elemen...
We describe a new quasi-optical SIS mixer design which attempts to obtain efficient radiation coupli...
We describe a new quasi-optical SIS mixer design which attempts to obtain efficient radiation coupli...