• Title/Summary/Keyword: flux quantum

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Fabrication and statistical characterization of Nb SQUID sensors for multichannel SQUID system

  • Kim, B.K.;Yu, K.K.;Kim, J.M.;Kwon, H.;Lee, S.K.;Lee, Y.H.
    • Progress in Superconductivity and Cryogenics
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    • v.22 no.4
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    • pp.62-66
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    • 2020
  • We fabricated superconducting quantum interference devices (SQUIDs) based on Nb Josephson junctions, and characterized the key parameters of the SQUIDs. The SQUIDs are double relaxation oscillation SQUIDs (DROSs) having larger flux-to-voltage transfer coefficient than the standard DC-SQUIDs. SQUID sensors were fabricated by using Nb junction technology consisted of a DC magnetron sputtering and a conventional photolithography process. In multichannel SQUID systems for whole-head magnetoencephalography measurement with a helmet-type SQUID array, we need about 336 SQUID sensors for each system. In this paper, we fabricated a few hundred SQUID sensors, measured the critical current, flux modulation voltage and decided if each tested SQUID can be used for the multichannel systems. As the criterion for the acceptance of the sensors, we chose the critical current and amplitude of the modulation voltage to be 8 ㎂ and 80 ㎶, respectively. The average critical current of the SQUIDs was 10.58 ㎂. The typical flux noise of the SQUIDs with input coil shorted was 2 μΦ0/√Hz at white region.

Sub-pico-Newton Quantum Weight (서브피코뉴톤 양자 분동)

  • Choi J.H.;Choi M.S.;Kim M.S.;Park Y.K.
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2005.10a
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    • pp.81-84
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    • 2005
  • We suggest flux quantum-based mechanism for force realization in the sub-pico-Newton range. By controlling the number of flux quantum in a superconducting ring, a force can be created as an integer multiple of a constant force step. For a 50 nm-thick Nb ring with the inner and outer radii of $5{\mu}m\;and\;10{\mu}m$, respectively, the force step is estimated to be 165 fN, assuming the magnetic field gradient of 10 T/m. We also estimated a maximum force limit to be $1\sim2$ pN.

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Simulations and Circuit Layouts of HTS Rapid Single Flux Quantum 1-bit A/D Converter by using XIC Tools (XIC tools을 사용한 고온 초전도 Rapid Single Flux Quantum 1-bit A/D Converter의 Simulation과 회로 Layout)

  • 남두우;홍희송;정구락;강준희
    • Proceedings of the Korea Institute of Applied Superconductivity and Cryogenics Conference
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    • 2002.02a
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    • pp.131-134
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    • 2002
  • In this work, we have developed a systematic way of utilizing the basic design tools for superconductive electronics. This include WRSPICE, XIC, margin program, and L-meter. Since the high performance analog-to- digital converter can be built with Rapid Single Flux Quantum (RSFQ) logic circuits the development of superconductive analog-to-digital converter has attracted a lot of interests as one of the most prospective area of the application of Josephson Junction technology. One of the main advantages in using Rapid Single Flux Quantum logic in the analog-to-digital converter is the low voltage output from the Josephson junction switching, and hence the high resolution. To design an 1-bit analog-digital converter, first we have used XIC tool to compose a circuit schematic, and then studied the operational principle of the circuit with WRSPICE tool. Through this process, we obtained the proper circuit diagram of an 1-bit analog-digital converter circuit. Based on this circuit we performed margin calculations of the designed circuits and optimized circuit parameters. The optimized circuit was laid out as a mask drawing. Inductance values of the circuit layout were calculated with L-meter. Circuit inductors were adjusted according to these calculations and the final layout was obtained.

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Quantifying of Photon Flux Emitting from Light-emitting Diodes Using a Quantum Sensor and Spectroradiometer (광량자센서와 분광광도계를 이용한 발광다이오우드 광량자속의 정량화)

  • 김용현;박현수
    • Journal of Bio-Environment Control
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    • v.9 no.4
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    • pp.223-229
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    • 2000
  • This study was conducted to analyze the opto-electric characteristics of light-emitting diodes(LED) designed for growth and morphogenesis control of transplant and to quantify the photon flux emittig from LED using a quantum sensor spectroradiometer. Difference in photon flux for blue and red LED between measured by a quantum sensor and measured by a spectroradiometer and numerically integrated was not observed. This result implies a spectroradiometer can be applied to quantify the photon flux emitting from far-red LED, which can not be measured using a quantum sensor. Since photon flux increases in proportion to wavelength, photon flux of LED modules arranged for red and far-red increased in proportion to wavelength, photon flux of LED modules arranged for red and rar-red increased gradually as the number of LED stick emitting far-red in LEd modules increased. Illumination of LED modules arranged for red and far-red decreased as the number of LED stick emitting far-red in LED modules increased. There was no difference in irradiance between LED modules arranged for red and far-red.

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Operation of a High-T$_c$ Rapid Single-Flux-Quantum 4-stage Shift Register

  • Park, J.H.;Kim, Y.H.;Kang, J.H.;Hahn, T.S.;Kim, C.H.;Lee, J.M.
    • Progress in Superconductivity
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    • v.1 no.2
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    • pp.105-109
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    • 2000
  • We have designed and fabricated a single-flux-quantum(SFQ) four-stage shift register using YBCO bicrystal Josephson junctions, and tested its operations using a digital measurement set-up. The circuit consists of 4 shift register stages and a read SQUID placed next to each side of the shift register. Each SQUID was inductively coupled to the nearby shift register stage. The major obstacle in testing the circuits was the interference between the two read SQUIDs, and we could get over the problem by determining the correct operation points of the SQUID from the simultaneously measured modulation curves. Loaded data ('1' or '0') were successfully shifted from a stage to the next by a controlled current pulse injected to the bias lines located between the stages, and the corresponding correct data shifts were observed with the two read SQUIDs.

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Simulation for characterization of high speed probe for measurement of single flux quantum circuits (단자속양자 회로 측정프로브의 특성 분석을 위한 시뮬레이션)

  • 김상문;김영환;최종현;조운조;윤기현
    • Progress in Superconductivity and Cryogenics
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    • v.4 no.2
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    • pp.11-15
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    • 2002
  • High speed probe for measurement of sin91e flux quantum circuits is comprised of coaxial cables and microstrip lines in order to carry high speed signals without loss. For the impedance matching between coaxial cable and microstrip line, we have determined the dimension of the microstrip line with 50${\Omega}$ impedance by simulation and then have investigated the effect of line width and cross-sectional shape of signal line, dielectric material, thickness of soldering lead at the coaxial-to-microstrip transition Point, and the an91c between dielectric material and end part of the signal line on the characteristics of signal transmission of the microstrip line. From the simulation, we have found that these all parameter's had influenced on the characteristic of signal transmission on the microstrip line and should be reflected in fabricating high speed probe, We have also determined the dimension of coplanar waveguide to fabricate testing sample for performance test of high speed probe.

Operation of a Single Flux Quantum 4-stage Shift Register Fabricated with High $T_c$ Ramp-edge Junction Technology (고온 초전도 경사형 모서리 접합을 이용한 4단 쉬프트 레지스터의 동작)

  • Kim, J. H.;Park, J. H.;Kim, S. H.;Jung, K. R.;Kang, J. H.;Sung, G. Y.;Hahn, T. S.
    • Progress in Superconductivity
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    • v.3 no.1
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    • pp.83-86
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    • 2001
  • We have fabricated a single flux quantum 4-stage shift register with interface-controlled $Y_1$$Ba_2$$Cu_3$$O_{7-x}$(YBCO) Josephson junction. The YBCO Josephson junctions showed RSJ-like current-voltage(I-V) curves at temperatures 45~80K. We tested load and shift operation of shift register with binary data sequences “1000”, “1010”, “1011”, and “1111” at 58K. For all the binary data sequences, the shift register operated successfully. By operating the circuit with proper current pulses, we observed no errors during at least 12 hours operation for all the data sequences.s.

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