SQUID magnetometers for low-frequency applications
暂无分享,去创建一个
Risto J. Ilmoniemi | Tapani Ryhänen | Jukka Knuutila | R. Ilmoniemi | J. Knuutila | T. Ryhänen | H. Seppä | H. Seppä | Heikki Seppä
[1] H. Seppa,et al. Properties of the microwave SQUID with an YBaCuO point contact junction , 1989 .
[2] W. Jutzi,et al. Measured performance parameters of gradiometers with digital output , 1989 .
[3] M. Beasley,et al. Low frequency resistance fluctuations in films of high temperature superconductors , 1989 .
[4] Bradford W. Parkinson,et al. The Gravity-Probe-B relativity gyroscope experiment - Development of the prototype flight instrument , 1989 .
[5] H. Tamura,et al. A Single-chip Squid Magnetometer , 1988, 1988 IEEE International Solid-State Circuits Conference, 1988 ISSCC. Digest of Technical Papers.
[6] McGuire,et al. Critical currents in , 1988, Physical review letters.
[7] H. K. Olsson,et al. Low-noise Josephson parametric amplification and oscillations at 9 GHz , 1988 .
[8] J Clarke,et al. The Impact of High-Temperature Superconductivity on SQUID Magnetometers , 1988, Science.
[9] Comparison between electric evoked potentials, source dipole components and magnetic evoked fields elicited by noise/square‐wave stimuli , 1988, Acta neurologica Scandinavica.
[10] Mark Johnson,et al. Magnetic flux noise in thin‐film rings of YBa2Cu3O7−δ , 1988 .
[11] Thermally induced escape: The principle of minimum available noise energy. , 1988, Physical review. A, General physics.
[12] Macroscopic quantum tunneling and thermal activation from metastable states in a dc SQUID. , 1988, Physical review letters.
[13] M. Odehnal,et al. Observation of higher order NMR larmor lines by SQUID in solids at low magnetic field , 1988 .
[14] T. R. Dinger,et al. Reliable single‐target sputtering process for high‐temperature superconducting films and devices , 1988 .
[15] F. Wellstood,et al. Flux noise and flux creep in YBCO thin films , 1988 .
[16] Planariation technology for Josephson integrated circuits , 1988, IEEE Electron Device Letters.
[17] I. Ishida,et al. Advanced lift‐off planarization process for Josephson integrated circuits , 1988 .
[18] T. C. Huang,et al. Bulk Superconductivity at 125 K in Tl 2 Ca 2 Ba 2 Cu 3 O x , 1988 .
[19] Matti Kajola,et al. Design, optimization, and construction of a dc SQUID with complete flux transformer circuits , 1988 .
[20] G. J. Clark,et al. DC Sqiids made from YBa2Cu3Oy , 1988 .
[21] Malozemoff,et al. Giant flux creep and irreversibility in an Y-Ba-Cu-O crystal: An alternative to the superconducting-glass model. , 1988, Physical review letters.
[22] C. Torardi,et al. Crystal Structure of Tl2Ba2Ca2Cu3O10, a 125 K Superconductor , 1988, Science.
[23] Chi,et al. Direct measurement of the superconducting properties of single grain boundaries in Y1Ba2Cu3O7- delta. , 1988, Physical review letters.
[24] M. Weissman. 1/f noise and other slow, nonexponential kinetics in condensed matter. , 1988 .
[25] R. Koch,et al. Improving thin-film techniques , 1988, Nature.
[26] J. Gallop,et al. Magnetic field response and flux pinning in a high Tc squid , 1988 .
[27] K. Rao,et al. HighTc superconductive materials: Bulk or twinned domain/grain boundary percolative network superconductors? , 1988 .
[28] H. Seppa,et al. A computer-controlled Josephson voltage standard , 1988 .
[29] Luke F. Lester,et al. Ultra-low-noise cryogenic high-electron-mobility transistors , 1988 .
[30] Suhl. Escape over barriers in almost integrable systems. , 1988, Physical review letters.
[31] M. Fukutomi,et al. A New High-Tc Oxide Superconductor without a Rare Earth Element , 1988 .
[32] M. Tinkham. Critical currents in high Tc superconductors , 1988 .
[33] V. Petříček,et al. SQUID behavior at liquid nitrogen temperature in high-Tc superconductors of the type Y-Ba-Cu-O , 1988 .
[34] Richard L. Kautz,et al. Activation energy for thermally induced escape from a basin of attraction , 1987 .
[35] M. Odehnal,et al. DC and ac Josephson effects observed in high-temperature superconductor YBaCuO , 1987 .
[36] M. Kajola,et al. A Low-Noise Seven-Channel DC SQUID Magnetometer for Brain Research , 1987 .
[37] Reynolds,et al. Current persistence and magnetic shielding properties of Y1Ba2Cu3Ox tubes. , 1987, Physical review. B, Condensed matter.
[38] G. Donaldson,et al. Observation of quantum interference effects and SQUID operation in a bulk sample of YBa2Cu3Oy at 77 and 4.2 K , 1987 .
[39] J. Flokstra,et al. Optimization of the dynamic behavior of a SQUID system using an electronic simulation , 1987, IEEE Transactions on Instrumentation and Measurement.
[40] J. Zimmerman,et al. Operation of a Y-Ba-Cu-O rf SQUID at 81 K , 1987 .
[41] J. Knuutila,et al. Effects on DC SQUID characteristics of damping of input coil resonances , 1987 .
[42] Robert Benjamin Laibowitz,et al. Quantum interference devices made from superconducting oxide thin films , 1987 .
[43] S. Naitô,et al. Observation of the Josephson Effect in Y-Ba-Cu-O Compound , 1987 .
[44] Van Vechten D,et al. Impedance of radio-frequency-biased resistive superconducting quantum interference devices. , 1987, Physical review. B, Condensed matter.
[45] I. Iguchi,et al. DC SQUID Operation at 77 K Using All Ceramics Josephson Junctions , 1987 .
[46] John Clarke,et al. Low‐frequency excess noise in Nb‐Al2O3‐Nb Josephson tunnel junctions , 1987 .
[47] J. Martinis,et al. Observation of the a.c. Josephson Effect Inside Copper-Oxide-Based Superconductors , 1987 .
[48] F. Shiota,et al. A study of a superconducting magnetic levitation system for an absolute determination of the magnetic flux quantum , 1987, IEEE Transactions on Instrumentation and Measurement.
[49] Small Nb/Al-Oxide/Nb Josephson Junction Fabrication Using Lift-Off Processes , 1987 .
[50] Chu,et al. Superconductivity at 93 K in a new mixed-phase Yb-Ba-Cu-O compound system at ambient pressure. , 1987, Physical review letters.
[51] J. Rowell. Superconducting tunneling spectroscopy and the observation of the Josephson effect , 1987 .
[52] S. Bermon. Cosmic-ray monopole search at IBM-BNL using superconducting induction detectors , 1987 .
[53] Tunnel junctions fabricated from coherent NbN/MgO/NbN and NbN/Al 2 O 3 /NbN structures , 1987 .
[54] Measuring magnetic fluctuations from seismic waves using a superconductive gradiometer , 1987 .
[55] W. Jutzi,et al. Microscopic simulation model of Josephson junctions for standard circuit analysis programs , 1987 .
[56] Masahiro Aoyagi,et al. PECVD SiO 2 film as a junction isolation for all refractory Josephson IC , 1987 .
[57] M. Castellano,et al. Long term operation of low noise DC-SQUID coupled to a very high Q gravitational radiation detector , 1987 .
[58] S. Ruggiero,et al. RF sputter-deposited aluminum-oxide films as high quality artificial tunnel barriers , 1987 .
[59] G. Donaldson,et al. Fabrication and properties of 1 µm 2 edge junctions , 1987 .
[60] R. Fagaly,et al. Superconducting magnetometer system for detecting lung contaminants , 1987 .
[61] J. Burch,et al. Integrated microwave SQUID , 1987 .
[62] Influence of the signal coil on DC-SQUID dynamics , 1987 .
[63] S. M. Faris,et al. An all-niobium eight level process for small and medium scale applications , 1987 .
[64] S. Whiteley,et al. Fabrication and performance of all NbN Josephson junction circuits , 1987 .
[65] R. Buhrman,et al. Electron trap states and low frequency noise in tunnel junctions , 1987 .
[66] 応用物理学会. Extended abstracts of 1987 international superconductivity electronics conference (ISEC '87), August 28-29, 1987, Kenchiku-Kaikan Hall, 5-26-20 Shiba, Minato-ku, Tokyo, Japan , 1987 .
[67] W. Jutzi,et al. Microscopic Simulation of Shapiro Steps near the Gap Voltage of Very High Current Density Josephson Junctions , 1987 .
[68] M. Huber,et al. Operation of Eight-Loop Superconducting Magnetic Monopole Detector , 1987 .
[69] M. W. Pospieszalski,et al. FET's and HEMT's at Cryogenic Temperatures - Their Properties and Use in Low-Noise Amplifiers , 1987, 1987 IEEE MTT-S International Microwave Symposium Digest.
[70] Carelli,et al. Noise effect on instabilities and chaotic solutions of a superconducting interferometer. , 1987, Physical review. B, Condensed matter.
[71] R. Maniewski,et al. On the accuracy of source localisation in cardiac measurements. , 1987, Physics in medicine and biology.
[72] Kurkijärvi,et al. Reply to "Noise effect on instabilities and chaotic solutions of a superconducting interferometer." , 1987, Physical review. B, Condensed matter.
[73] K. Enpuku,et al. Noise characteristics of a dc SQUID with a resistively shunted inductance. II. Optimum damping , 1986 .
[74] J. Clarke,et al. Current noise measured in the dc SQUID , 1986 .
[75] Hilbert,et al. Nuclear electric quadrupole induction of atomic polarization. , 1986, Physical review letters.
[76] Vittorio Foglietti,et al. Low-frequency noise in low 1/f noise dc SQUID's , 1986 .
[77] D. Drung. Digital feedback loops for d.c. SQUIDs , 1986 .
[78] R. Keränen,et al. Dependence on the pump frequency of the sensitivity of the rf SQUID , 1986 .
[79] Low-frequency noise and discrete charge trapping in small-area tunnel junction dc SQUID's , 1986 .
[80] K. Likharev,et al. Dynamics of Josephson Junctions and Circuits , 1986 .
[81] K. Müller,et al. Possible highTc superconductivity in the Ba−La−Cu−O system , 1986 .
[82] K. Yoshida,et al. Resistively shunted dc SQUID coupled to an input coil , 1986 .
[83] O. V. Lounasmaa,et al. Investigations of nuclear antiferromagnetic ordering in copper at nanokelvin temperatures , 1986 .
[84] H. Seppä. Optimization of the R-SQUID noise thermometer , 1986 .
[85] M. R. Freeman,et al. Low-temperature nuclear magnetic resonance with a dc SQUID amplifier , 1986 .
[86] Shinya Hasuo,et al. Self‐aligned contact process for Nb/Al‐AlOx/Nb Josephson junctions , 1986 .
[87] G. Carter,et al. Erosion and growth of solids stimulated by atom and ion beams , 1986 .
[88] J. Knuutila,et al. In Situ Ion Beam Processing for Josephson Junction Fabrication , 1986 .
[89] R J Ilmoniemi,et al. Cerebral magnetic fields. , 1986, Critical reviews in biomedical engineering.
[90] J. Talvacchio,et al. Artificial oxide barriers for NbN tunnel junctions , 1985 .
[91] John Clarke,et al. Measurements of the dynamic input impedance of a dc SQUID , 1985 .
[92] John Clarke,et al. DC SQUIDs as radiofrequency amplifiers , 1985 .
[93] Chi,et al. Flux limit of cosmic-ray magnetic monopoles from a fully coincident superconducting induction detector. , 1985, Physical review letters.
[94] Sleater,et al. Nuclear-spin noise. , 1985, Physical review letters.
[95] John Clarke,et al. Nuclear quadrupole resonance detected at 30 MHz with a dc superconducting quantum interference device , 1985 .
[96] K. Yoshida,et al. Noise characteristics of a dc SQUID with a resistively shunted inductance , 1985 .
[97] Rogers,et al. Nature of single-localized-electron states derived from tunneling measurements. , 1985, Physical review letters.
[98] Richard L. Kautz,et al. Chaos and thermal noise in the rf‐biased Josephson junction , 1985 .
[99] Masahiro Aoyagi,et al. Niobium nitride Josephson tunnel junctions with magnesium oxide barriers , 1985 .
[100] Dominique Reymann,et al. Progress in Resistance Ratio Measurements Using a Cryogenic Current Comparator at LCIE , 1985, IEEE Transactions on Instrumentation and Measurement.
[101] Fowler,et al. Subharmonic frequency locking in the resistive Josephson thermometer. , 1985, Physical review. B, Condensed matter.
[102] J. Knuutila,et al. Thin film process for Nb/NbOx/(Pb-In-Au) Josephson junction devices , 1985 .
[103] A. Kleinsasser. Relationship between beam and junction parameters in ion beam processed Josephson devices , 1985 .
[104] K. Tanabe,et al. Fluoride Barriers in Nb/Pb Josephson Junctions , 1985 .
[105] V. Foglietti,et al. Problems in coupling a dc-SQUID to the external world , 1985 .
[106] G. Donaldson,et al. Sputter fabricated Nb-oxide-Nb Josephson junctions incorporating post-oxidation noble metal layers , 1985 .
[107] Discrete lorentzian structure in low frequency voltage noise spectra of very small area Josephson tunnel junctions , 1985 .
[108] M. Goniche,et al. NbN tunnel junctions , 1985 .
[109] F. Irie,et al. Effect of damping resistance on voltage versus flux relation of a dc SQUID with large inductance and critical current , 1985 .
[110] Mark B. Ketchen,et al. Practical DC SQUIDs with extremely low 1/f noise , 1985 .
[111] W. Johnson,et al. Well coupled, low noise, dc SQUIDs , 1985 .
[112] S. Raider. Josephson tunnel junctions with refractory electrodes , 1985 .
[113] H. Risken. The Fokker-Planck equation : methods of solution and applications , 1985 .
[114] J. Niemeyer,et al. Microwave-Induced Constant Voltage Steps at Series Arrays of Josephson Tunnel Junctions with Near-Zero Current Bias , 1984, IEEE Transactions on Instrumentation and Measurement.
[115] J. Incandela,et al. Flux limit on cosmic-ray magnetic monopoles from a large area induction detector , 1984 .
[116] A. Hoffmann,et al. UHF-resistive SQUID noise thermometer at temperatures between 0.005 and 4.2K , 1984 .
[117] K. Reinikainen,et al. A four-channel SQUID magnetometer for brain research. , 1984, Electroencephalography and clinical neurophysiology.
[118] K. K. Kim,et al. Au/Ti resistors used for Nb/Pb‐alloy Josephson junctions. II. Thermal stability , 1984 .
[119] Instabilities and chaotic solutions of the current biased dc superconducting quantum interference device , 1984 .
[120] John Clarke,et al. Integrated dc SQUID magnetometer with a high slew rate , 1984 .
[121] Klaus Grohmann,et al. Self-Calibrating Cryo Current Comparators for AC Applications , 1984, IEEE Transactions on Instrumentation and Measurement.
[122] R. V. Dover,et al. Ion beam oxidation for Josephson circuit applications , 1984 .
[123] H. Seppä. Noise properties in an rf‐biased Josephson junction noise thermometer , 1984 .
[124] H. Seppä. Influence of the tank circuit on the low frequency impedance of an rf-biased R-SQUID , 1984 .
[125] P. Schrijner,et al. Simulation and optimization of a dc SQUID with finite capacitance , 1984 .
[126] H. Risken. Fokker-Planck Equation , 1984 .
[127] M. Freidlin,et al. Random Perturbations of Dynamical Systems , 1984 .
[128] B. Cabrera,et al. Upper limit on flux of cosmic-ray monopoles obtained with a three-loop superconductive detector , 1983 .
[129] E. Ben-Jacob,et al. Thermal activation from the fluxoid and the voltage states of dc SQUIDs , 1983 .
[130] T. Katila,et al. Measurement of subatomic displacements for Mossbauer spectroscopy , 1983 .
[131] C. Tesche,et al. Inductive monopole detector employing planar high order superconducting gradiometer coils , 1983 .
[132] H. F. Morrison,et al. Experience with the EM-60 electromagnetic system for geothermal exploration in Nevada , 1983 .
[133] P. Holmes,et al. Nonlinear Oscillations, Dynamical Systems, and Bifurcations of Vector Fields , 1983, Applied Mathematical Sciences.
[134] J. Tsai,et al. High-precision test of the universality of the josephson voltage-frequency relation , 1983 .
[135] Electrical characterization of Nb/Nb oxide/PbAuIn Josephson tunnel junctions , 1983 .
[136] John Clarke,et al. Geophysical applications of SQUIDS , 1983 .
[137] W. Johnson,et al. Double transformer coupling to a very low noise SQUID , 1983 .
[138] J. Clarke,et al. Investigation of 1/f noise in tunnel junction DC SQUIDS , 1983 .
[139] V. Foglietti,et al. Improved multi-loop DC SQUID , 1983 .
[140] T. Kuan,et al. Characterization of Nb/Nb oxide structures in Josephson tunnel junctions , 1983 .
[141] K. Likharev,et al. Quantum noise in SQUIDs , 1983 .
[142] K. Likharev,et al. Dynamics of Josephson tunnel junctions with a finite-width Riedel peak , 1983 .
[143] A. Silver,et al. SQUID voltage-controlled-oscillator , 1983 .
[144] M. Nisenoff,et al. High quality niobium nitride-niobium Josephson tunnel junctions , 1983 .
[145] M. R. Beasley,et al. Comment on "Hopping Mechanism Generating 1/f Noise in Nonlinear Systems" , 1983 .
[146] Mao-min Chen,et al. Plasma etching of niobium with CF4/O2 gases , 1983 .
[147] John Clarke,et al. Flicker (1/f) noise in tunnel junction dc SQUIDS , 1983 .
[148] J. Yorke,et al. Fractal Basin Boundaries, Long-Lived Chaotic Transients, And Unstable-Unstable Pair Bifurcation , 1983 .
[149] H. Huggins,et al. High quality refractory Josephson tunnel junctions utilizing thin aluminum layers , 1983 .
[150] H. Seppä. Some New Aspects concerning the X-Band SQUID for the Measurement of RF Attenuation , 1983 .
[151] D. G. McDonald,et al. Voltage and current expressions for a two‐junction superconducting interferometer , 1983 .
[152] E. E. Latta,et al. Barrier composition and electrical properties of high-quality all-niobium Josephson tunnel junctions , 1983 .
[153] B. W. Petley,et al. Quantum Metrology and Electrical Standards: The Measurements of 2e/h and γ′p , 1983 .
[154] Lloyd Kaufman,et al. Biomagnetism: An Interdisciplinary Approach. Proceedings of a NATO advanced Study Institute on Biomagnetism Held at Grottaferrata, Italy on 1-12 September 1982. NATO Advanced Sciences Institutes Series A: Life Sciences. Volume 66, , 1983 .
[155] Paul Henry Cutler,et al. Quantum metrology and fundamental physical constants , 1983 .
[156] Samuel J. Williamson,et al. Biomagnetism : an interdisciplinary approach , 1983 .
[157] J. Tripp,et al. Magnetic-susceptibility measurement of human iron stores. , 1982, The New England journal of medicine.
[158] G. Tsoi,et al. Rf SQUID in the nonhysteretic regime withk2Ql>1 , 1982 .
[159] Masahiro Aoyagi,et al. New fabrication process for Josephson tunnel junctions with (niobium nitride, niobium) double‐layered electrodes , 1982 .
[160] A. Lichtenberg,et al. Regular and Stochastic Motion , 1982 .
[161] V. Foglietti,et al. Behavior of a multiloop dc superconducting quantum interference device , 1982 .
[162] T. Kuan,et al. Structure of a Nb oxide tunnel barrier in a Josephson junction , 1982 .
[163] T. M. Klapwijk,et al. Compact integrated dc SQUID gradiometer , 1982 .
[164] E. Parker,et al. Magnetic Monopoles and the Survival of Galactic Magnetic Fields , 1982 .
[165] D. Vechten,et al. Effect of additive noise and bandpass filter on the performance of a Josephson junction noise thermometer , 1982 .
[166] M.S. Gupta,et al. Thermal noise in nonlinear resistive devices and its circuit representation , 1982, Proceedings of the IEEE.
[167] J. Clarke,et al. Superconducting quantum interference device with very low magnetic flux noise energy , 1982 .
[168] C. Tesche. Analysis of a double-loop dc SQUID , 1982 .
[169] Blas Cabrera,et al. First results from a superconductive detector for moving magnetic monopoles , 1982 .
[170] A. Barone,et al. Physics and Applications of the Josephson Effect , 1982 .
[171] Mark B. Ketchen,et al. Ultra‐low‐noise tunnel junction dc SQUID with a tightly coupled planar input coil , 1982 .
[172] J. Gallop. The Impact of Superconducting Devices on Precision Metrology and Fundamental Constants , 1982 .
[173] J. Waldram,et al. Superconducting Quantum Interference Devices and their Applications , 1982 .
[174] J. Bruines,et al. Comment on: “Dc SQUID: Noise and optimization” by Tesche and Clarke , 1982 .
[175] Eshel Ben-Jacob,et al. Lifetime of oscillatory steady states , 1982 .
[176] D. J. Bergman,et al. Thermal fluctuations and lifetime of the nonequilibrium steady state in a hysteretic Josephson junction , 1982 .
[177] T. D. Clark,et al. UHF ultra low noise cryogenic FET preamplifier , 1982 .
[178] R. Peterson. Mathematical modelling of the impedance of a Josephson junction noise thermometer , 1981 .
[179] E. Ben-Jacob,et al. Dynamics of the DC‐SQUID , 1981 .
[180] J. Kurkijärvi. Collective quantum tunneling, ultimate sensitivity of the AC SQUID, and all that , 1981 .
[181] J. Rowell,et al. Modification of tunneling barriers on Nb by a few monolayers of Al , 1981 .
[182] L. Smith,et al. Selective niobium anodization process for fabricating Josephson tunnel junctions , 1981 .
[183] G. Pickett. Giant Thermoelectrically Generated Magnetic Flux in a Superconducting Bimetallic Loop and a Suggested Direct Measurement of a Normal Thermocurrent in a Superconductor , 1981 .
[184] C. Tesche. A thermal activation model for noise in the dc SQUID , 1981 .
[185] P. M. Horn,et al. Low-frequency fluctuations in solids: 1/f noise , 1981 .
[186] Y. Netzer,et al. The design of low-noise amplifiers , 1981, Proceedings of the IEEE.
[187] P. Carelli,et al. Low‐noise tunnel junction dc SQUID’s , 1981 .
[188] O. Tsukamoto,et al. Noise temperature contours for high-sensitivity SQUID's Low-noise tunnel junction dc SQUID's , 1981 .
[189] S. Erne,et al. A method for determining the SQUID parameter β and the coupling coefficient K in a nonhysteretic rf SQUID , 1981 .
[190] R. Gayley. Josephson tunnel junction time‐dependence calculations based on the Bardeen‐Cooper‐Schrieffer theory , 1981 .
[191] John Clarke,et al. QUANTUM NOISE THEORY FOR THE dc SQUID , 1981 .
[192] R. Voss. Uncertainty principle limit to the energy sensitivity of SQUID's and other linear amplifiers , 1981 .
[193] M. Ketchen. DC SQUIDs 1980: The state of the art , 1981 .
[194] M. Castellano,et al. Toroidal DC SQUIDs with point-contact junctions , 1981 .
[195] R. Voss,et al. Ultra low noise Nb DC SQUIDs , 1981 .
[196] S. Reible. Reactive ion etching in the fabrication of niobium tunnel junctions , 1981 .
[197] Mark B. Ketchen,et al. Planar coupling scheme for ultra low noise DC SQUIDs , 1981 .
[198] J. Magerlein,et al. Specific capacitance of Josephson tunnel junctions , 1981 .
[199] R. Voss. Noise characteristics of an ideal shunted Josephson junction , 1981 .
[200] J. Park,et al. Resistive squids for thermal measurements , 1981 .
[201] T. Van Duzer,et al. Principles of Superconductive Devices and Circuits , 1981 .
[202] S. I. Raider,et al. Nb/Nb oxide/Pb-alloy Josephson tunnel junctions , 1981 .
[203] R. Kautz,et al. A Josephson voltage standard using a series array of 100 junctions , 1981 .
[204] K. Weyand. DC-Current Control Using SQUID-Gradiometer Systems , 1980, IEEE Transactions on Instrumentation and Measurement.
[205] Robert A. Buhrman,et al. High‐quality submicron niobium tunnel junctions with reactive‐ion‐beam oxidation , 1980 .
[206] W. Walter,et al. Niobium oxide-barrier tunnel junction , 1980, IEEE Transactions on Electron Devices.
[207] A self-calibrating rhodium-iron resistive SQUID thermometer for the range below 0.5 K , 1980 .
[208] G. Dorda,et al. New Method for High-Accuracy Determination of the Fine-Structure Constant Based on Quantized Hall Resistance , 1980 .
[209] R. F. Broom,et al. Josephson junctions of small area formed on the edges of niobium films , 1980 .
[210] R. Soulen,et al. The establishment of a temperature scale from 0.01 K to 0.05 K using noise and 60Co γ-ray anisotropy thermometers , 1980 .
[211] G. Tsoi,et al. On quantum interference in a superconducting ring closed by a weak link , 1980 .
[212] J. Clarke,et al. Advances in SQUID magnetometers , 1980, IEEE Transactions on Electron Devices.
[213] Z. Schuss. Singular Perturbation Methods in Stochastic Differential Equations of Mathematical Physics , 1980 .
[214] T. Clark,et al. Higher harmonics in the Josephson effect , 1980 .
[215] J. C. Garland,et al. Experimental study of thermoelectricity in superconducting indium , 1980 .
[216] K. Matsuo. Non-Ohmic Effect of Shunted-Josephson-Junction Model --The Autonomous Case-- , 1980 .
[217] R. Kautz. On a proposed Josephson‐effect voltage standard at zero current bias , 1980 .
[218] T. D. Clark,et al. Varactor tuned ultrahigh frequency SQUID magnetometer , 1980 .
[219] F. Rachford,et al. High Tc refractory thin‐film microwave SQUID’s , 1979 .
[220] G. Ehnholm,et al. Transversal SQUID NMR , 1979 .
[221] Quantum electrodynamic circuits at ultralow temperature , 1979 .
[222] T. D. Clark,et al. High-performance UHF SQUID magnetometer. , 1979, The Review of scientific instruments.
[223] A. Longacre. The cavity‐coupled Josephson device , 1979 .
[224] H. D. Vollmer,et al. Distribution functions for the Brownian motion of particles in a periodic potential driven by an external force , 1979 .
[225] J. R. James,et al. High-frequency behaviour of microstrip open-circuit terminations , 1979 .
[226] Pulak Dutta,et al. Energy Scales for Noise Processes in Metals , 1979 .
[227] John Clarke,et al. Error analysis for remote reference magnetotellurics , 1979 .
[228] Yamada Hajime,et al. New high‐resistivity thin film resistor material for Josephson logic circuits , 1979 .
[229] Samuel J. Williamson,et al. Evoked neuromagnetic fields of the human brain , 1979 .
[230] Robert E. Lee. Microfabrication by ion‐beam etching , 1979 .
[231] H. D. Vollmer,et al. Low friction nonlinear mobility for the diffusive motion in periodic potentials , 1979 .
[232] J. Hollenhorst,et al. High sensitivity microwave SQUID , 1979 .
[233] Konstantin K. Likharev,et al. Superconducting weak links , 1979 .
[234] R. Soulen,et al. Low frequency impedance and noise properties of an RF biased resistive SQUID , 1979 .
[235] Madhu S. Gupta. Thermal fluctuations in driven nonlinear resistive systems , 1978 .
[236] F. Delahaye. A Double Constant Current Source for Cryogenic Current Comparators and Its Applications , 1978, IEEE Transactions on Instrumentation and Measurement.
[237] P. T. Olsen,et al. A Method to Measure Magnetic Fields Accurately Using Ampere's Law , 1978, IEEE Transactions on Instrumentation and Measurement.
[238] D. Geselowitz,et al. Simulation Studies of the Electrocardiogram: I. The Normal Heart , 1978, Circulation research.
[239] John Clarke,et al. Superconducting thin‐film gradiometer , 1978 .
[240] D. Sullivan,et al. RF instrumentation based on superconducting quantum interference , 1978, Proceedings of the IEEE.
[241] Piezoelectric gravitational antennas for use at 3 m °K , 1978 .
[242] J. Gallop. A proposed high-precision measurement of the electron Compton wavelength (h/mec) using cryogenic metrological techniques , 1978 .
[243] L. Schulman,et al. Qualitative theory of the nonlinear behavior of coupled Josephson junctions , 1978 .
[244] A. Callegari,et al. Temperature dependence of microwave SQUID response , 1977 .
[245] R. Webb. New technique for improved low‐temperature SQUID NMR measurements , 1977 .
[246] Richard E. Harris. Numerical evaluation of the response of a Josephson tunnel junction in an arbitrary circuit , 1977 .
[247] J. Hough,et al. An extension to the noise theory of RF SQUIDs with implications for gravitational radiation detectors , 1977 .
[248] G. Ehnholm,et al. Theory of the signal transfer and noise properties of the rf SQUID , 1977 .
[249] Design of gravitational antennae for use at 3 m°K , 1977 .
[250] John Clarke,et al. dc SQUID: Noise and optimization , 1977 .
[251] B. N. Cuffin,et al. Studies of the Electrocardiogram Using Realistic Cardiac and Torso Models , 1977, IEEE Transactions on Biomedical Engineering.
[252] K. Likharev,et al. Limit characteristics of two-junction magnetic flux detector , 1977 .
[253] F. Vernon,et al. Millimeter wave behavior of superconducting point contact SQUID , 1977 .
[254] D. Sullivan,et al. Can superconductivity contribute to the determination of the absolute ampere , 1977 .
[255] Y. Imry,et al. Nonlinear effects in coupled Josephson devices , 1977 .
[256] S. Erne,et al. Theory of rf‐biased superconducting quantum interference device for nonhysteretic regime , 1976 .
[257] G. Boella,et al. A novel cryogenic voltage standard , 1976, IEEE Transactions on Instrumentation and Measurement.
[258] O. Soerensen. Analysis of the ac SQUID with low inductance and low critical current , 1976 .
[259] John Clarke,et al. Tunnel junction dc SQUID: Fabrication, operation, and performance , 1976 .
[260] L. Jackel,et al. Performance factors in rf SQUIDs--High frequency limit , 1976 .
[261] J. Rowlands,et al. High precision four‐terminal resistance bridge utilizing a SQUID null‐detector , 1976 .
[262] D. A. Vincent,et al. rf SQUID’s in the nonhysteretic mode: Detailed comparison of theory and experiment , 1976 .
[263] R. Clarke,et al. Moulded microwave squid for r.f.-attenuator calibration , 1976 .
[264] J. Clarke,et al. Nb-Nb thin-film Josephson junctions , 1976 .
[265] I. K. Harvey. Cryogenic ac Josephson Effect emf Standard Using a Superconducting Current Comparator , 1976 .
[266] H. Paik. Superconducting tunable‐diaphragm transducer for sensitive acceleration measurements , 1976 .
[267] John Clarke,et al. Flicker (1f) noise: Equilibrium temperature and resistance fluctuations , 1976 .
[268] S. N. Erne,et al. High-Precision DC-Current Source , 1975, IEEE Transactions on Instrumentation and Measurement.
[269] S. Wolf,et al. Observation of a cosphi term in the current-phase relation for ''Dayem''- type weak link contained in an rf-biased superconducting quantum interference device , 1975 .
[270] J. Clarke,et al. Thin‐film dc SQUID with low noise and drift , 1975 .
[271] Robert A. Buhrman,et al. Noise in the rf SQUID , 1975 .
[272] K. Likharev,et al. On some aspects of superconducting quantum interferometer optimization , 1975 .
[273] J. Claassen. Coupling considerations for SQUID devices , 1975 .
[274] Michael Tinkham,et al. Introduction to Superconductivity , 1975 .
[275] T. Finnegan,et al. Cryogenic Voltage Comparator System for 2e/h Measurements , 1974 .
[276] John Gallop,et al. Operational Experience with a Cryogenic Volt Monitoring System , 1974 .
[277] V. Kose,et al. Maintaining the Unit of Voltage at PTB via the Josephson Effect , 1974 .
[278] H. Lübbig,et al. Ironless Cryogenic Current Comparators for AC and DC Applications , 1974 .
[279] D. Rogovin,et al. Fluctuation phenomena in tunnel junctions , 1974 .
[280] D. Pascal,et al. Experimental determination of optimum operating conditions of a superconducting interferometer , 1974 .
[281] O. V. Lounasmaa,et al. Experimental Principles and Methods Below 1K , 1974 .
[282] T. Fulton,et al. Lifetime of the zero-voltage state in Josephson tunnel junctions , 1974 .
[283] Ronald F. Dziuba,et al. Low temperature direct current comparators , 1974 .
[284] Y. Nezer. A new interpretation of noise reduction by matching , 1974 .
[285] D. A. Vincent,et al. Observation of a phase-dependent conductivity in superconducting point contacts , 1974 .
[286] W. Stewart. Current‐voltage characteristics of superconducting tunnel junctions , 1974 .
[287] I. K. Harvey,et al. Precise resistance ratio measurements using a superconducting dc ratio transformer , 1973 .
[288] N. Pedersen,et al. Analytical solution for a Josephson-junction model with capacitance , 1973 .
[289] R. A. Webb,et al. Noise thermometry at ultralow temperatures , 1973 .
[290] W. Parker,et al. Observation of a Phase-Modulated Quasiparticle Current in Superconducting Weak Links. , 1973 .
[291] B. Horáček,et al. Digital model for studies in magnetocardiography , 1973 .
[292] Paul K. Hansma,et al. Superconducting single‐junction interferometers with small critical currents , 1973 .
[293] J. Kurkijärvi. Noise in the superconducting quantum flux detector , 1973 .
[294] D. Cohen,et al. Ferromagnetic Contamination in the Lungs and Other Organs of the Human Body , 1973, Science.
[295] J. Clarke,et al. Low-frequency applications of superconducting quantum interference devices , 1973 .
[296] M. Simmonds,et al. A new technique for RF measurements using superconductors , 1973 .
[297] J. Mercereau,et al. Weakly superconducting circuits , 1973 .
[298] I. K. Harvey. A Precise Low Temperature dc Ratio Transformer , 1972 .
[299] J. Kurkijaervi,et al. INTRINSIC FLUCTUATIONS IN A SUPERCONDUCTING RING CLOSED WITH A JOSEPHSON JUNCTION. , 1972 .
[300] R. Dynes,et al. Quantum interference properties of double Josephson junctions , 1972 .
[301] M. Simmonds,et al. Broadband Superconducting Quantum Magnetometer , 1972 .
[302] W. Webb. Superconducting quantum magnetometers , 1972 .
[303] R. A. Webb,et al. Principles and methods of low-frequency electric and magnetic measurements using an rf-biased point-contact superconducting device , 1972 .
[304] D. Sullivan. Low Temperature Voltage Divider and Null Detector , 1972 .
[305] D. Cohen. Magnetoencephalography: Detection of the Brain's Electrical Activity with a Superconducting Magnetometer , 1972, Science.
[306] L. Solymar,et al. Superconductive tunnelling and applications , 1972 .
[307] J. Greiner. Josephson Tunneling Barriers by rf Sputter Etching in an Oxygen Plasma , 1971 .
[308] J. E. Zimmerman,et al. Sensitivity Enhancement of Superconducting Quantum Interference Devices through the Use of Fractional‐Turn Loops , 1971 .
[309] W. Parker,et al. ANALOG COMPUTER SIMULATION OF WEAKLY CONNECTED SUPERCONDUCTING RINGS. , 1971 .
[310] J. E. Zimmerman,et al. NOISE THERMOMETRY WITH THE JOSEPHSON EFFECT. , 1971 .
[311] W. C. Scott. HYSTERESIS IN THE dc SWITCHING CHARACTERISTICS OF JOSEPHSON JUNCTIONS , 1970 .
[312] V. Ambegaokar,et al. Numerical calculation of thermal noise-voltage in a Josephson junction of finite capacitance , 1970 .
[313] J. Zimmerman,et al. Design and Operation of Stable rf‐Biased Superconducting Point‐Contact Quantum Devices, and a Note on the Properties of Perfectly Clean Metal Contacts , 1970 .
[314] M. Freidlin,et al. ON SMALL RANDOM PERTURBATIONS OF DYNAMICAL SYSTEMS , 1970 .
[315] M. Nisenoff. Superconducting magnetometers with sensitivities approaching 10 -10 gauss , 1970 .
[316] C. Everitt,et al. General Relativity Experiments Using Low Temperature Techniques , 1970 .
[317] M. J. Stephen. Noise in a driven Josephson oscillator , 1969 .
[318] J. Clarke,et al. Origin of Low‐Voltage Structure and Asymmetry in the I‐V Characteristics of Multiply‐Connected Superconducting Junctions , 1969 .
[319] B. Taylor,et al. Determination of eh, Using Macroscopic Quantum Phase Coherence in Superconductors: Implications for Quantum Electrodynamics and the Fundamental Physical Constants , 1969 .
[320] W. Parker,et al. Linewidth of the Radiation Emitted by a Josephson Junction , 1969 .
[321] Vinay Ambegaokar,et al. VOLTAGE DUE TO THERMAL NOISE IN THE dc JOSEPHSON EFFECT. , 1969 .
[322] R. Ouboter,et al. Quantum-interference phenomena in point contacts between two superconductors , 1969 .
[323] M. J. Stephen. Noise in the ac Josephson Effect , 1969 .
[324] M. J. Stephen. Theory of a Josephson oscillator , 1968 .
[325] D. Mccumber. Effect of ac Impedance on dc Voltage‐Current Characteristics of Superconductor Weak‐Link Junctions , 1968 .
[326] R. Meservey. Proposed Ammeter Using Flux Quantization , 1968 .
[327] W. Schroen. Physics of Preparation of Josephson Barriers , 1968 .
[328] W. C. Stewart,et al. CURRENT‐VOLTAGE CHARACTERISTICS OF JOSEPHSON JUNCTIONS , 1968 .
[329] A. Warnick,et al. Digital‐Analog Magnetometer Utilizing Superconducting Sensor , 1967 .
[330] J. E. Zimmerman,et al. QUANTUM STATES AND TRANSITIONS IN WEAKLY CONNECTED SUPERCONDUCTING RINGS. , 1967 .
[331] J. E. Zimmerman,et al. Macroscopic Quantum Interference Effects through Superconducting Point Contacts , 1966 .
[332] J. Clarke,et al. A superconducting galvanometer employing Josephson tunnelling , 1966 .
[333] Lock-On Magnetometer Utilizing a Superconclucting Sensor , 1966 .
[334] J. Lambe,et al. Macroscopic quantum interference in superconductors , 1965 .
[335] Brian D. Josephson,et al. Supercurrents through barriers , 1965 .
[336] John Lambe,et al. QUANTUM INTERFERENCE EFFECTS IN JOSEPHSON TUNNELING , 1964 .
[337] P. Anderson,et al. HARD SUPERCONDUCTIVITY: THEORY OF THE MOTION OF ABRIKOSOV FLUX LINES , 1964 .
[338] H. J. Hagger,et al. Parametric and tunnel Diodes , 1964 .
[339] J. Rowell,et al. Magnetic Field Dependence of the Josephson Tunnel Current , 1963 .
[340] Vinay Ambegaokar,et al. Tunneling between superconductors , 1963 .
[341] C. J. Adkins. Two-particle tunnelling between superconductors , 1963 .
[342] Philip W. Anderson,et al. Image of the Phonon Spectrum in the Tunneling Characteristic Between Superconductors , 1963 .
[343] Philip W. Anderson,et al. PROBABLE OBSERVATION OF THE JOSEPHSON SUPERCONDUCTING TUNNELING EFFECT , 1963 .
[344] B. Taylor,et al. Excess Currents in Electron Tunneling Between Superconductors , 1963 .
[345] Philip W. Anderson,et al. Theory of Flux Creep in Hard Superconductors , 1962 .
[346] B. Josephson. Possible new effects in superconductive tunnelling , 1962 .
[347] L. Young,et al. Anodic Oxide Films , 1962 .
[348] K. Kotzebue,et al. Semiconductor-Diode Parametric Amplifiers. , 1961 .
[349] R. Chambers. Shift of an electron interference pattern by enclosed magnetic flux , 1960 .
[350] D. Bohm,et al. Significance of Electromagnetic Potentials in the Quantum Theory , 1959 .
[351] L. Cooper,et al. Theory of superconductivity , 1957 .
[352] A. Van Der Ziel,et al. On the Mixing Properties of Non‐Linear Condensers , 1948 .
[353] S. Chandrasekhar. Stochastic problems in Physics and Astronomy , 1943 .
[354] H. Kramers. Brownian motion in a field of force and the diffusion model of chemical reactions , 1940 .
[355] J. Bernamont,et al. Fluctuations de potentiel aux bornes d'un conducteur métallique de faible volume parcouru par un courant , 1937 .