Please use this identifier to cite or link to this item: http://localhost/handle/Hannan/534832
Title: 2.7 THz Balanced Waveguide HEB Mixer
Authors: Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA;Boussaha, Faouzi ; Kawamura, Jonathan ; Stern, Jeffery ; Jung-Kubiak, Cecile
subject: Schottky diode mixers; bolometers; etching; micromachining; oscillators; Callen-Welton formula; NbN hot-electron bolometers; balanced waveguide HEB mixer; bath temperature; deep reactive ion etching; frequency 2.7 THz; hybrid coupler; local oscillator sideband noise rejection; minimum uncorrected DSB receiver noise temperature; room-temperature Schottky diode mixers; silicon micromachining techniques; temperature 293 K to 298 K; temperature 4.2 K; thick silicon substrate; waveguide embedding circuit; waveguide-based balanced superconducting mixer; Couplers; Mixers; Noise; Optical waveguides; Radio frequency; Receivers; Temperature measurement; Heterodyne detection; hot electron bolometer; hybrid coupler; silicon micromachining; terahertz (THz) frequency; waveguide;
Year: 2014
Publisher: IEEE
Abstract: We report on the development of a waveguide-based balanced superconducting mixer for operation near 2.7 THz. The mixer employs a pair of NbN hot-electron bolometers defined on 6 μm-thick silicon substrate that follows a 90
URI: http://localhost/handle/Hannan/263190
http://localhost/handle/Hannan/534832
ISSN: 2156-342X
volume: 4
issue: 5
Appears in Collections:2014

Files in This Item:
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6868292.pdf1.47 MBAdobe PDF
Title: 2.7 THz Balanced Waveguide HEB Mixer
Authors: Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA;Boussaha, Faouzi ; Kawamura, Jonathan ; Stern, Jeffery ; Jung-Kubiak, Cecile
subject: Schottky diode mixers; bolometers; etching; micromachining; oscillators; Callen-Welton formula; NbN hot-electron bolometers; balanced waveguide HEB mixer; bath temperature; deep reactive ion etching; frequency 2.7 THz; hybrid coupler; local oscillator sideband noise rejection; minimum uncorrected DSB receiver noise temperature; room-temperature Schottky diode mixers; silicon micromachining techniques; temperature 293 K to 298 K; temperature 4.2 K; thick silicon substrate; waveguide embedding circuit; waveguide-based balanced superconducting mixer; Couplers; Mixers; Noise; Optical waveguides; Radio frequency; Receivers; Temperature measurement; Heterodyne detection; hot electron bolometer; hybrid coupler; silicon micromachining; terahertz (THz) frequency; waveguide;
Year: 2014
Publisher: IEEE
Abstract: We report on the development of a waveguide-based balanced superconducting mixer for operation near 2.7 THz. The mixer employs a pair of NbN hot-electron bolometers defined on 6 μm-thick silicon substrate that follows a 90
URI: http://localhost/handle/Hannan/263190
http://localhost/handle/Hannan/534832
ISSN: 2156-342X
volume: 4
issue: 5
Appears in Collections:2014

Files in This Item:
File SizeFormat 
6868292.pdf1.47 MBAdobe PDF
Title: 2.7 THz Balanced Waveguide HEB Mixer
Authors: Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA;Boussaha, Faouzi ; Kawamura, Jonathan ; Stern, Jeffery ; Jung-Kubiak, Cecile
subject: Schottky diode mixers; bolometers; etching; micromachining; oscillators; Callen-Welton formula; NbN hot-electron bolometers; balanced waveguide HEB mixer; bath temperature; deep reactive ion etching; frequency 2.7 THz; hybrid coupler; local oscillator sideband noise rejection; minimum uncorrected DSB receiver noise temperature; room-temperature Schottky diode mixers; silicon micromachining techniques; temperature 293 K to 298 K; temperature 4.2 K; thick silicon substrate; waveguide embedding circuit; waveguide-based balanced superconducting mixer; Couplers; Mixers; Noise; Optical waveguides; Radio frequency; Receivers; Temperature measurement; Heterodyne detection; hot electron bolometer; hybrid coupler; silicon micromachining; terahertz (THz) frequency; waveguide;
Year: 2014
Publisher: IEEE
Abstract: We report on the development of a waveguide-based balanced superconducting mixer for operation near 2.7 THz. The mixer employs a pair of NbN hot-electron bolometers defined on 6 μm-thick silicon substrate that follows a 90
URI: http://localhost/handle/Hannan/263190
http://localhost/handle/Hannan/534832
ISSN: 2156-342X
volume: 4
issue: 5
Appears in Collections:2014

Files in This Item:
File SizeFormat 
6868292.pdf1.47 MBAdobe PDF