Your search keyword '"Alexandre Karpov"' showing total 20 results

1. Superconductive Ultracompact Magnetically Coupled Resonator With Twin-Spiral Structure

Author

Alexander P. Zhuravel, Alexey V. Ustinov, Alexandre Karpov, A. S. Averkin, Valery P. Koshelets, Steven M. Anlage, and Lyudmila V. Filippenko

Subjects

Coupling, Superconductivity, Materials science, HFSS, business.industry, Physics::Optics, Metamaterial, Resonance, 02 engineering and technology, Dielectric, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Inductive coupling, Electronic, Optical and Magnetic Materials, Resonator, Optics, 0103 physical sciences, Electrical and Electronic Engineering, 010306 general physics, 0210 nano-technology, business

Abstract

We describe a practical design of an ultracompact on-chip superconductive microresonator as a potential magnetic element of metamaterial. The achieved resonator size with respect to the wavelength in our experiment is about λ /14 400. The resonator consists of two superconducting Nb spirals, sandwiched face to face, with a small gap filled with dielectric. The spirals are turning in opposite directions: one clockwise, another counterclockwise. We study the resonator spectral response and its inner modes using numerical simulation in HFSS. In experiment with a laser scanning microscope, we confirm the predictions for the resonance frequencies of Nb superconductive resonator and its inner modes structures. Small size and the ease of manufacturing make the two-spiral resonator an attractive solution for superconductive filters, coupling circuits, and as a magnetic component of a metamaterial.

Published

2017

2. Low Noise 1 THz SIS Mixer for Stratospheric Observatory: Design and Characterization

Author

J. A. Stern, Alexandre Karpov, Imran Mehdi, B. Bumble, Robert Lin, David Alan Miller, Henry G. LeDuc, and Jonas Zmuidzinas

Subjects

Physics, Infrared astronomy, Noise measurement, business.industry, Terahertz radiation, Slot antenna, Far-infrared astronomy, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Telescope, Observatory, law, Optoelectronics, Electrical and Electronic Engineering, business, Noise (radio)

Abstract

We report the development of a low noise SIS mixer aimed for 1 THz channel of the Caltech Airborne Submillimeter Interstellar Medium Investigations Receiver (CASIMIR), designed for the Stratospheric Observatory for Far Infrared Astronomy (SOFIA). The mixer uses Nb/Al-AlN/NbTiN SIS junctions with critical current density of about 45 kA/cm2. The junctions are shaped in order to optimize the suppression of the Josephson DC currents. We used a double slot planar antenna to couple the mixer chip with the telescope beam. The RF matching microcircuit is made using Nb and gold films. The mixer IF circuit is designed to cover 4-8 GHz band. The test receiver with the new mixer has the low noise operation in a 0.9-1.05 THz band. The minimum DSB receiver noise measured at 1 THz is 260 K (Y=1.64) , apparently the lowest reported up to date.

Published

2011

3. Broadband sample holder for microwave spectroscopy of superconducting qubits

Author

A. S. Averkin, Evgeni Il'ichev, Alexandre Karpov, N. N. Abramov, U. Huebner, K. V. Shulga, Evgenii Glushkov, and Alexey V. Ustinov

Subjects

Superconductivity, Cryostat, Flux qubit, Materials science, Condensed matter physics, Condensed Matter - Mesoscale and Nanoscale Physics, business.industry, Amplifier, Condensed Matter - Superconductivity, Bolometer, FOS: Physical sciences, law.invention, Superconductivity (cond-mat.supr-con), Interference (communication), law, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), Optoelectronics, business, Instrumentation, Passband, Microwave

Abstract

We present a practical design and implementation of a broadband sample holder suitable for microwave experiments with superconducting integrated circuits at millikelvin temperatures. Proposed design can be easily integrated in standard dilution cryostats, has flat pass band response in a frequency range from 0 to 32 GHz, allowing the RF testing of the samples with substrate size up to 4x4 mm. The parasitic higher modes interference in the holder structure is analyzed and prevented via design considerations. The developed setup can be used for characterization of superconducting parametric amplifiers, bolometers and qubits. We tested the designed sample holder by characterizing of a superconducting flux qubit at 20 mK temperature., 11 pages, 7 figures

Published

2014

4. A 200-300 GHz single sideband SIS mixer for radio astronomy

Author

Alexandre Karpov, K. H. Gundlach, D. Billon-Pierron, and J. Blondel

Subjects

Physics, Noise temperature, business.industry, Niobium, chemistry.chemical_element, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Radio telescope, Optics, chemistry, Broadband, Electrical and Electronic Engineering, business, Compatible sideband transmission, Frequency mixer, Band rejection, Radio astronomy

Abstract

We present an ultra broadband low noise single sideband (SSB) SIS mixer developed for 200-300 GHz radio astronomy receivers. The mixer uses two Nb/AlO/sub x//Nb junctions. Image band rejection by 20 dB is provided in the entire 200-300 GHz band using a mechanical tuning of the single noncontacting backshort in the mixer. The SIS receiver SSB noise temperature is close to 50 K in the main part of the band. A speed-up of the observations at radio telescopes by a factor 2-3 is expected with the new receiver.

Published

2001

5. Processing and characterization of high Jc NbN superconducting tunnel junctions for THz analog circuits and RSFQ

Author

Alexandre Karpov, F. Miletto-Granozio, J.-C. Villegier, V. Larrey, and M. Salez

Subjects

Superconductivity, Materials science, Condensed matter physics, Terahertz radiation, business.industry, Sputter deposition, Condensed Matter Physics, Epitaxy, Electronic, Optical and Magnetic Materials, Tunnel junction, Rapid single flux quantum, Chemical-mechanical planarization, Optoelectronics, Electrical and Electronic Engineering, business, Sheet resistance

Abstract

A generic NbN Superconducting Tunnel Junctions (STJ) technology has been developed using conventional substrates (Si and SOI-SIMOX) for making THz spectrometers including SIS receivers and RSFQ logic gates. NbN/MgO/NbN junctions with area of 1 /spl mu/m/sup 2/, Jc of 10 kA/cm/sup 2/ and low sub-gap leakage current (Vm>25 mV) are currently obtained from room temperature sputtered multilayers followed by a post-annealing at 250/spl deg/C. Using a thin MgO buffer layer deposited underneath the NbN electrodes, ensures lower NbN surface resistance values (Rs=7 /spl mu//spl Omega/) at 10 GHz and 4 K. Epitaxial NbN [100] films on MgO [100] with high gap frequency (1.4 THz) have also been achieved under the same deposition conditions at room temperature. The NbN SIS has shown good I-V photon induced steps when LO pumped at 300 GHz. We have developed an 8 levels Al/NbN multilayer process for making 1.5 THz SIS mixers (including Al antennas) on Si membranes patterned in SOI-SIMOX. Using the planarization techniques developed at the Si-MOS CEA-LETI Facility, we have also demonstrated on the possibility of extending our NbN technology to high level RSFQ circuit integration with 0.5 /spl mu/m/sup 2/ junction area, made on large area substrates (up to 8 inches).

Published

1999

6. A three photon noise SIS heterodyne receiver at submillimeter wavelength

Author

M. Voss, J. Blondel, Alexandre Karpov, and K. H. Gundlach

Subjects

Physics, Noise temperature, business.industry, Superheterodyne receiver, Condensed Matter Physics, Submillimetre astronomy, Electronic, Optical and Magnetic Materials, law.invention, Radio telescope, Optics, law, Heterodyne detection, Electrical and Electronic Engineering, business, Compatible sideband transmission, Noise (radio), Radio astronomy

Abstract

An ultra-low noise single sideband SIS receiver has been prepared for radio astronomy at the sub millimeter wavelength /spl lambda//spl ap/0.85 mm. The minimum single sideband receiver noise temperature of 48 K corresponds to 3 h/spl omega//k or equivalent number of 3 photon of noise. The minimum single sideband SIS mixer noise temperature is about 20 K, close to 1.2 h/spl omega//k, or one photon of noise. The Nb/AlOx/Nb junctions with a Josephson critical current density of 9 KA/cm/sup 2/ and with the area of about 0.9 /spl mu/m/sup 2/ were used. The receiver has been tested at the 30 meter IRAM radio telescope in the winter seasons of 1997 and 1998. The observations at the radio telescope are speeded up by a factor of two to three with the new receiver.

Published

1999

7. A broad band low noise SIS radiometer

Author

Valery P. Koshelets, Alexandre Karpov, J. Blondel, and P. Dmitriev

Subjects

Josephson effect, Heterodyne, Physics, Noise temperature, Radiometer, business.industry, Amplifier, Condensed Matter Physics, Low-noise amplifier, Electronic, Optical and Magnetic Materials, Optics, Intermediate frequency, Millimeter, Electrical and Electronic Engineering, business

Abstract

A new type of ultra broad band SIS low noise radiometer has been developed. The SIS receiver instantaneous band of about 30% is significantly increased compared to traditional designs. We avoid a restriction related to the limited band of the Intermediate Frequency (IF) low noise amplifier by using a multifrequency heterodyne power source. In this regime the frequency mixing is performed simultaneously in a big number of the subbands and the IF signals are combined in a common amplifier. A low noise operation in this regime is possible due to the quantum nature of the frequency mixing in SIS quasi particle tunnel junctions. The SIS receiver covers 25 GHz band centered at 90 GHz with an equivalent noise temperature of about 50 K. The receiver uses a fixed tuned SIS mixer with Nb/Al Ox/Nb junctions. The critical Josephson current density is about 2.6 KA/cm/sup 2/ and the junction area is of about 1.5 /spl mu/m/sup 2/. The limits to further improvement of the radiometer and the possibilities for extension of the technique to the sub millimeter band are discussed.

Published

1999

8. [Untitled]

Author

J. Blondel, K. H. Gundlach, D. Billon-Pierron, M. Carter, and Alexandre Karpov

Subjects

Physics, Radiation, Radio receiver design, business.industry, Local oscillator, Schottky diode, Condensed Matter Physics, Vector processor, Radio telescope, Optics, Cardinal point, Power dividers and directional couplers, Electrical and Electronic Engineering, business, Instrumentation, Radio astronomy

Abstract

The integration of many receiver units into a receiver array is a common method of improvement of imaging systems. This approach, well known in the mm band for Schottky mixer arrays, has not so far been developed for Superconductor - Insulator - Superconductor (SIS) junction mixers, which give the best sensitivity in the short mm wave range and in the submm range. We demonstrate for the first time a practical low noise multibeam receiver module using SIS mixer technology. The basis for the integration of several SIS mixers with a common local oscillator source is given by the saturation of the SIS receiver noise dependence upon local oscillator power. The module comprises three identical SIS mixers integrated with a common local oscillator, coupled through a three branch waveguide directional coupler. The multibeam module has been developed for a focal plane array receiver of the 30 meter radio telescope of the Institut de Radioastronomie Millimetrique (IRAM).

Published

1998

9. Noise and gain in frequency mixers with NbN SIS junctions

Author

J. Blondel, S. Takada, Alexandre Karpov, K. H. Gundlach, Masahiro Aoyagi, B. Plathner, and M. Schicke

Subjects

Materials science, business.industry, Terahertz radiation, Condensed Matter Physics, Junction area, Noise (electronics), Omega, Electronic, Optical and Magnetic Materials, Low noise, Wavelength, Optoelectronics, Millimeter, Electrical and Electronic Engineering, business, Sensitivity (electronics)

Abstract

We study noise and conversion gain in the SIS mixers with Nb/MgO/NbN junctions at the millimeter and submillimeter wavelengths in order to estimate the possibility to extent the low noise operation towards the theoretical limit of 4/spl Delta//h=2.4 THz. We present as preliminary result the lowest achieved receiver noise with NbN SIS junctions of 65 K with conversion gain of -6 dB at 162 GHz and 230 K receiver noise with conversion gain of -10 dB at 306 GHz. The junction area is 2 /spl mu/m/sup 2/ and Josephson critical current density is 1.4 KA/cm/sup 2/. The optimum R/sub N//spl omega/C of NbN junction for mixers is estimated as 600 GHz/V. In preliminary tests the junctions R/sub N//spl omega/C is 10-20 time superior to the optimum and a significant improvement of NbN SIS mixers may be expected. The noise sources in the NbN SIS junctions are studied and a possible mixer sensitivity improvement is discussed. The thermal properties of the SIS NbN are studied. The frequency limit of the low loss integrated tuning structure in NbN is estimated as at least as 1.5 THz.

Published

1997

10. A 125-180 GHz fixed-tuned SIS mixer for radioastronomy

Author

P. Pasturel, Alexandre Karpov, J. Blondel, and K. H. Gundlach

Subjects

Physics, Noise temperature, Noise-figure meter, business.industry, Instrumentation, Mixer noise, Electrical engineering, Y-factor, Noise figure, Condensed Matter Physics, Noise floor, Electronic, Optical and Magnetic Materials, Low noise, Radio telescope, Optics, Josephson current, Phase noise, Optoelectronics, Flicker noise, Electrical and Electronic Engineering, business, Noise (radio)

Abstract

An ultra low noise fixed-tuned SIS mixer covering an instantaneous band of 45% around 150 GHz has been developed for radioastronomy. A new type of coplanar tuning circuit for the SIS junction is introduced. The Nb/Al oxide/Nb junctions are 2 /spl mu/m/sup 2/ with critical Josephson current density of 4.2 KA/cm/sup 2/. The minimum DSB mixer noise is 11 K. The minimum DSB receiver noise is 19 K, while the average noise is 25 K in the 130-175 GHz range with a 1 GHz IF band. A speedup of the observations by a factor 2-3 is possible with the new receiver at 30 m IRAM radiotelescope.

Published

1997

11. Low noise SIS mixer for 230 GHz receivers of plateau de bure interferometer

Author

K. H. Gundlach, D. Billion-Pierron, J. Blondel, and Alexandre Karpov

Subjects

Physics, Superconductivity, Waveguide (electromagnetism), Radiation, business.industry, Circuit design, Quantum limit, Plateau de Bure Interferometer, Condensed Matter Physics, Bruit, Optics, Thermal, medicine, Electrical and Electronic Engineering, medicine.symptom, business, Instrumentation, Noise (radio)

Abstract

We present a SIS mixer developed for 200 – 250 GHz band receivers of Plateau de Bure Interferometer. We demonstrate the minimum DSB receiver noise of 20 K at 220 GHz. The average receiver noise of 25 K is possible in 200 – 250 GHz range. The receiver conversion gain and output noise instability of 10−4 on the time scale of 1 minute is comparable with the Shottky receivers performance. The minimum measured SIS mixer noise of about 10 K is close to the quantum limit. The waveguide SIS mixer with a single backshort has two junction array with inductively tuned junctions. The Nb/Al Oxide/Nb SIS junctions are 2.24 µm2 each with the Josephson critical current density of 3.2 KA/cm2. The thermal properties of the SIS mixer are studied. The mixer band of the low noise operation is in a good agreement with the design requirements.

Published

1997

12. Imaging the electromagnetic response of superconducting metasurfaces

Author

Alexey V. Ustinov, R. Kosarev, L. V. Filippenko, P. Jung, Valery P. Koshelets, Alexander P. Zhuravel, Alexandre Karpov, and S. Butz

Subjects

Superconductivity, Materials science, Condensed matter physics, business.industry, Electromagnetic response, Characterization (materials science), law.invention, Split-ring resonator, Planar, Laser scanning microscope, Optical microscope, law, Optoelectronics, business, Microwave metamaterials

Abstract

We present a method to analyze the electromagnetic behavior of superconducting planar microwave metamaterials. Using a laser scanning microscope (LSM), we image the microwave response of two-dimensional arrays of magnetic meta-atoms. This method allows us to investigate contributions of individual meta-atoms to the macroscopic response and thus provides a useful tool for characterization and optimization. The meta-atoms in the present experiment are frequency tunable superconducting quantum interference devices (SQUIDs).

Published

2013

13. Dual-channel sis receivers for the iram Plateau de Bure Interferometer

Author

B. Lazareff, J. Blondel, Alexandre Karpov, James W. Lamb, F. Mattiocco, and M. Carter

Subjects

Physics, Radiation, business.industry, Astrophysics::Instrumentation and Methods for Astrophysics, Phase (waves), Plateau de Bure Interferometer, Condensed Matter Physics, Chopper, Optics, Very-long-baseline interferometry, Calibration, Electrical and Electronic Engineering, Antenna (radio), business, Instrumentation, Sensitivity (electronics), Noise (radio), Computer Science::Information Theory

Abstract

The five antennas of the Plateau de Bure Interferometer have been instrumented with dual-channel receivers in the λ 3 mm and λ 1 mm bands. Polarisation diplexing allows simultaneous observations in the two bands. Each receiver has ambient and cryogenic calibration loads, and one receiver is equipped with a beam switching chopper for total power flux measurements. Typically the receiver noise temperatures are

Published

1996

14. Low noise submillimeter SIS receiver with niobium nitride quasiparticle tunnel junctions

Author

Alexandre Karpov, S. Takada, J. Blondel, K. H. Gundlach, Masahiro Aoyagi, B. Plathner, and M. Schicke

Subjects

Superconductivity, Radiation, Materials science, Niobium nitride, business.industry, Condensed Matter Physics, law.invention, Low noise, chemistry.chemical_compound, Printed circuit board, chemistry, law, Tunnel junction, Quasiparticle, Optoelectronics, Electrical and Electronic Engineering, business, Instrumentation, Waveguide, Voltage

Abstract

We have developed and tested a submillimeter waveguide SIS mixer with NbN-MgO-NbN quasiparticle tunnel junctions. The two junction array is integrated in a full NbN printed circuit. The NbN film critical temperature is 15 K and the junction gap voltage is 5 mV. The size of the junctions is 1.4 × 1.4 µm and Josephson critical current density is about 1.5 KA/cm2 resulting in junction RNωC product about 40. The inductive tuning circuit in NbN is integrated with each junction in two junction array. A single non contacting backshort was tuned at each frequency in the mixer block.

Published

1996

15. Noise and thermal properties of a submillimeter mixer with the SINS tunnel junction

Author

B. Lazareff, Alexandre Karpov, K. H. Gundlach, J. Blondel, and D. Maier

Subjects

Physics, Superconductivity, Radiation, business.industry, Condensed Matter Physics, Magnetic field, Quality (physics), Tunnel junction, Limit (music), Thermal, Optoelectronics, Electrical and Electronic Engineering, business, Instrumentation, Frequency mixer, Noise (radio)

Abstract

In this work we present for the first time a low-noise submillimeter receiver with a mixer using Superconductor-Insulator-Normal metal-Superconductor (SINS) junctions. Junctions containing a normal metal layer may be free of the Josephson current and of the related perturbations of mixer operation specific for the standard SIS mixers. This SINS mixer quality is important for the application in the multibeam submillimeter receiver. The SINS mixer stability of operation and independence on the magnetic field have been confirmed in our experiment. Minimum SINS receiver noise in the 290 – 330 GHz band is about 135 K when the junction RNωC is about 30. Noise, conversion gain and thermal properties of the SINS mixer have been studied and compared with the SIS mixers. The limit of SINS mixer operation improvement is discussed at the end of the work.

Published

1995

16. Four photons sensitivity heterodyne detection of submillimeter radiation with superconducting tunnel junctions

Author

J. Blondel, K. H. Gundlach, M. Voss, and Alexandre Karpov

Subjects

Physics, Noise temperature, Sideband, Terahertz radiation, business.industry, Astrophysics::Instrumentation and Methods for Astrophysics, Astrophysics::Cosmology and Extragalactic Astrophysics, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, law.invention, Telescope, Radio telescope, Optics, law, Heterodyne detection, Electrical and Electronic Engineering, Compatible sideband transmission, business, Noise (radio)

Abstract

An ultra low noise SIS receiver has been prepared for radio astronomy. The minimum double sideband receiver noise temperature is about 30 K which corresponds to 2 /spl planck//spl omega//k or an equivalent number of 4 photons of noise. The minimum measured double sideband mixer noise temperature is about 10 K which corresponds to 0.6 /spl planck//spl omega//k or approximately to 1 photon of noise. The fixed tuned SIS mixer operates in the 290-370 GHz frequency range. The submicron niobium junctions mere fabricated using photoresist lines for junction definition. The receiver has been used at the 30 m IRAM radio telescope in Spain in winter 1994. Telescope system noise temperature of 500 K single sideband has been achieved when the sky opacity was about 0.17. >

Published

1995

17. Double‐barrier tunnel junctions for quasiparticle mixers

Author

D. Billon-Pierron, M. Rosengarten, T. Lehnert, H. Rothermel, Alexandre Karpov, and K. H. Gundlach

Subjects

Materials science, Condensed matter physics, Annealing (metallurgy), London penetration depth, Niobium, General Physics and Astronomy, chemistry.chemical_element, Magnetic field, Tunnel effect, chemistry, Condensed Matter::Superconductivity, Electrode, Quasiparticle, Irradiation

Abstract

Double‐barrier niobium tunnel junctions with the middle electrode thinner than the London penetration depth were fabricated. Their I‐V curves, annealing behavior, response to external magnetic field, and response to 230 and 350 GHz irradiation in mixer experiments is discussed. Junctions with an integrated tuning circuit designed for the 230 GHz frequency range gave double‐sideband receiver noise temperatures of 100 K. Vertically stack arrays can be attractive for various applications. Compared to single‐barrier devices possible drawbacks were noted. The I‐V curve indicates heating and/or nonequilibrium effects. Double‐barrier devices became nonuniform after thermal annealing at 200 °C. The response to the external magnetic field is more complex and considerably larger flux densities are needed to suppress Josephson effects.

Published

1994

18. Submicron Nb-Al-oxide-Nb junctions for frequency mixers

Author

M. Voss, K. H. Gundlach, and Alexandre Karpov

Subjects

Fabrication, Materials science, business.industry, Local oscillator, Metals and Alloys, Photoresist, Condensed Matter Physics, law.invention, Resist, Tunnel junction, law, Materials Chemistry, Ceramics and Composites, Optoelectronics, Electrical and Electronic Engineering, Photolithography, business, Current density, Voltage

Abstract

A fabrication process for submicron Nb-Al-oxide-Nb tunnel junctions using photoresist lines and optical lithography is described. With 0.6 mu m wide resist lines, junction areas of about 0.4 mu m2 were obtained. At present the maximum current density obtainable is 8500 A cm-2, and for this the best Vm parameters of the submicron junctions are 47 mV at 4.2 K and 150 mV at 2.5 K. Compared with standard photoresist pads for junction definition, photoresist lines are more stable and result in junction areas closer to the areas on the mask. A weak increase of the gap voltage with decreasing junction size is observed. Finally, the performance of a 345 GHz receiver incorporating a two-junction array with integrated filter and tuning circuit is discussed.

Published

1993

19. Development of Low Noise THz SIS Mixer Using an Array of Nb/Al-AlN/NbTiN Junctions

Author

David P. Miller, J. A. Stern, Alexandre Karpov, Henry G. LeDuc, B. Bumble, and Jonas Zmuidzinas

Subjects

Physics, business.industry, Stratospheric Observatory for Infrared Astronomy, Terahertz radiation, Circuit design, Slot antenna, Condensed Matter Physics, Submillimetre astronomy, Electronic, Optical and Magnetic Materials, law.invention, law, Optoelectronics, Electrical and Electronic Engineering, business, Frequency mixer, Noise (radio), Beam splitter

Abstract

We report the development of a low noise and broadband SIS mixer aimed for 1 THz channel of the Caltech Airborne Submillimeter Interstellar Medium Investigations Receiver (CASIMIR), designed for the Stratospheric Observatory for Infrared Astronomy, (SOFIA). The mixer uses an array of two 0.24 mum^2 Nb/Al-AlN/NbTiN SIS junctions with the critical current density of 30-50 kA/cm^2 . An on-chip double slot planar antenna couples the mixer circuit with the telescope beam. The mixer matching circuit is made with Nb and gold films. The mixer IF circuit is designed to cover 4-8 GHz band. A test receiver with the new mixer has a low noise operation in 0.87-1.12 THz band. The minimum receiver noise measured in our experiment is 353 K (Y = 1.50). The receiver noise corrected for the loss in the LO injection beam splitter is 250 K. The combination of a broad operation band of about 250 GHz with a low receiver noise makes the new mixer a useful element for application at SOFIA.

Published

2009

20. Low Noise 1 THz–1.4 THz Mixers Using Nb/Al-AlN/NbTiN SIS Junctions

Author

Alexandre Karpov, Jonas Zmuidzinas, F. Rice, J. A. Stern, David Miller, Henry G. LeDuc, and B. Bumble

Subjects

Cryostat, Heterodyne, Physics, Noise temperature, business.industry, Terahertz radiation, Stratospheric Observatory for Infrared Astronomy, Niobium, chemistry.chemical_element, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, chemistry, Low-power electronics, Optoelectronics, Electrical and Electronic Engineering, business, Noise (radio), Caltech Library Services

Abstract

We present the development of a low noise 1.2 THz and 1.4 THz SIS mixers for heterodyne spectrometry on the Stratospheric Observatory For Infrared Astronomy (SOFIA) and Herschel Space Observatory. This frequency range is above the limit for the commonly used Nb quasi particle SIS junctions, and a special type of hybrid Nb/AlN/NbTiN junctions has been developed for this project.We are using a quasi-optical mixer design with two Nb/AlN/NbTiN junctions with an area of 0.25 µm^2. The SIS junction tuning circuit is made of Nb and gold wire layers. At 1.13 THz the minimum SIS receiver uncorrected noise temperature is 450 K. The SIS receiver noise corrected for the loss in the LO coupler and in the cryostat optics is 350–450 K across 1.1–1.25 THz band. The receiver has a uniform sensitivity in a full 4–8 GHz IF band. The 1.4 THz SIS receiver test at 1.33–1.35 THz gives promising results, although limited by the level of available LO power. Extrapolation of the data obtained with low LO power level shows a possibility to reach 500 K DSB receiver noise using already existing SIS mixer.

Published

2007