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Friday, April 17, 2020 | History

5 edition of Squid "85: Superconducting Quantum Interference Devices and Their Applications found in the catalog.

Squid "85: Superconducting Quantum Interference Devices and Their Applications

Proceedings (International Conference on Superconducting Quantum Devices//S ... Interference Devices and Their Applications)

by Hans Hahlbohm

  • 172 Want to read
  • 23 Currently reading

Published by Walter De Gruyter Inc .
Written in English

    Subjects:
  • Electronic devices & materials,
  • Electronic Apparatus And Devices

  • Edition Notes

    ContributionsHeinz Lubbig (Editor)
    The Physical Object
    FormatHardcover
    ID Numbers
    Open LibraryOL12663474M
    ISBN 103110103303
    ISBN 109783110103304

    We demonstrate that the low‐frequency noise in our edge junction dc superconducting quantum interference devices, with a basic 1/f flux noise of 2×10−12 Φ20/Hz at 1 Hz, can all be accounted for in terms of junction critical current fluctuations. A novel modulation readout scheme is able to cancel the effect of junction critical current fluctuations and reduce our total noise to Cited by: The disclosed apparatus includes a low temperature SQUID sensor mounted in close proximity to a dewar thin window. A radiation shield has an extension surrounding the detection coil. USB2 - Superconducting quantum interference apparatus and method for high resolution imaging of samples - Google PatentsCited by: SQUID - Superconducting Quantum Interference Devices and their Applications: Proceedings of the International Conference on Superconducting Quantum Devices, Berlin (West), October 4–8, Hans-D. Hahlbohm. Readers will find, for the first time, collected in one book, detailed information regarding the physical mechanisms of the origin of magnetosensitivity, the geometry and design of devices, operating modes, basic parameters and methods for their determination, the incorporation of transducers in circuits and smart solutions, many varied.


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Squid "85: Superconducting Quantum Interference Devices and Their Applications by Hans Hahlbohm Download PDF EPUB FB2

SQUID '85, superconducting quantum interference devices and their applications: Proceedings of the Third International Conference on Superconducting Quantum Devices, Berlin (West), JuneUnknown Binding – See all formats and editions Inspire a love of reading with Prime Book Box for Kids.

Squid '85 Superconducting Quantum Interference Devices and Their Applications (INTERNATIONAL CONFERENCE ON SUPERCONDUCTING QUANTUM DEVICES//S Q U I D: INTERFERENCE DEVICES AND THEIR APPLICATIONS) Hardcover – February 1, Format: Hardcover.

SQUID - Superconducting Quantum Interference Devices and their Applications 1st Edition. by H. Hahlbohm (Editor), H.

Lubbig (Editor)Price: $   Buy SQUID '85 Superconducting Quantum Interference Devices and Their Applications by Hans-D.

Hahlbohm, Heinz Lubbig from Waterstones today. Click and Collect from your local Waterstones or get FREE UK delivery on orders over £Format: Mixed Media Product. Get this from a library. SQUID '85, superconducting quantum interference devices and their applications: proceedings of the Third International Conference on Superconducting Quantum Devices, Berlin (West), June[H D Hahlbohm; H Lübbig;].

MACROSCOPIC QUANTUM TUNNELLING AND COHERENCE: THEIR SIGNIFICANCE FOR THE FOUNDATIONS OF PHYSICS. SQUID '85 Superconducting Quantum Interference Devices and their Applications: Proceedings of the Third International Conference on Superconducting Quantum Devices, Berlin (West), June(pp.

EFFECT OF A SUPERCONDUCTING CYLINDER ON THE SQUID-MAGNETOMETER SIGNAL FROM A MAGNETIC DIPOLE. In SQUID '85 Superconducting Quantum Interference Devices and their Applications: Proceedings of the Third International Conference on Superconducting Quantum Devices, Berlin (West), June(pp.

SQUID '85 Superconducting Quantum Interference Devices and their Applications Proceedings of the Third International Conference on Superconducting Quantum Devices, Berlin (West), JuneEd. by Hahlbohm, Hans-D.

SQUID '85, superconducting quantum interference devices and their applications. Berlin ; New York: W. de Gruyter, (DLC) (OCoLC) Material Type: Conference publication, Document, Internet resource: Document Type: Internet Resource, Computer File: All Authors / Contributors: H D Hahlbohm; H Lübbig.

Superconducting Quantum Interference Devices and their Applications Reprint ed. Edition by H. Hahlbohm (Editor)Author: H. Hahlbohm. SQUID '85 Superconducting Quantum Interference Devices and their Applications Proceedings of the Third International Conference on Superconducting Quantum Devices, Berlin (West), JuneEd.

by Hahlbohm, Hans-D. / Lübbig, Heinz. Get this from a library. SQUID, superconducting quantum interference devices and their applications: proceedings of the International Conference on Superconducting Quantum Devices, Berlin (West), October[H D Hahlbohm; H Lübbig;].

Superconducting quantum interference devices (SQUIDs) are sensitive detectors of magnetic flux. A SQUID consists of a su- perconducting loop interrupted by either one or two Josephson junctions for the RF or dc SQUID, respectively.

Low transition temperature (T c) SQUIDs are fabricated from thin films of nio- Size: 1MB. Find many great new & used options and get the best deals for SQUID-Superconducting Quantum Interference Devices and Their Applications: International Conference, Oct., Berlin (, Hardcover) at the best online prices at eBay.

Free shipping for many products. Abstract Superconducting quantum interference devices (SQUIDs) are sensitive detectors of magnetic flux. A SQUID consists of a superconducting loop interrupted by either one or. Find many great new & used options and get the best deals for Squid: Superconducting Quantum Interference Devices and Their Applications (, Hardcover) at the best online prices at eBay.

Free shipping for many products. SQUID '85 - Superconducting Quantum Interference Devices and their Applications Editors: H. Hahlbohm, H. LObbig © Walter de Gruyter & Co., Berlin New York - Printed in by: The superconducting quantum interference device (SQUID) offers unrivalled sensitivity for the measurement of low-frequency magnetic fields.

The chapter reviews the operation of rf and dc SQUIDs, stressing, in particular, the theoretical understanding of complete SQUID circuits. This is necessary for the design of practical by: We report on the fabrication and electrical transport properties of superconducting quantum interference devices (SQUIDs) made from a (Bi_{1-x}Sb_x)_2Se_3 topological insulator (TI) nanoribbon (NR.

Get this from a library. SQUID '80, superconducting quantum interference devices and their applications: proceedings of the Second International Conference on Superconducting Quantum Devices, Berlin (West), May[H D Hahlbohm; H Lübbig;]. Proceedings of successive Internatnational Conferences on Superconducting Quantum Interference Devices in Berlin: SQUID’S° (ISBN X) SQUID’85 (ISBN 0–––7) and ’Superconducting devices and their applications’ Proc.

SQUID’91, (SBN ) Google ScholarCited by: 8. Since the discovery of high-temperature superconductivity considerable progress has been made in research and development of superconductive electronic devices.

This fact is reflected by the large variety of contributions to the 4th International Conference on Superconducting and Quantum Effect Devices and their Applications - SQUID'Format: Paperback.

Drung D and Jutzi W SQUID ' Superconducting Quantum Interference Devices and their Applications ed H D Hahlbohm and H Lübbig (Berlin: de Gruyter) p Drung D, Zimmermann R, Cantor R, Erné S N, Koch H, Matthies K P, Peters M, Scheer H J and Stollfubeta D b to appear in a supplement of Clin.

Phys. Physiol. by: The fabrication, operation and performance of the dc Superconducting Quantum Interference Device (SQUID) are briefly described.

The SQUID is used as a radiofrequency amplifier in a new mode in which the input signal is coupled between the square washer that forms the body of the SQUID and one end of the spiral coil overlaying the by: 1.

Ehnholm, G. () Complete linear equivalent circuit for the SQUID, in H. HaMbohm and H. Lubbig (eds.), SQUID Superconducting Quantum Interference Devices and their Applications, Walter de Gruyter, Berlin, pp. –; Theory of the signal transfer and noise properties of the rf SQUID, J. Low.

Temp. Phys. 29, 1–27 (). Google Scholar. Hahlbohm H.D., Lubbig H. SQUID ‘85 Superconducting Quantum Interference Devices and Their Applications: Proceedings of the Third International Conference on Superconducting Quantum Devices. Walter de Gruyter & Co.; Berlin, Germany: p. [Google Scholar].

A robotic three-dimensional (3D) scanning superconducting quantum interference device (SQUID) imaging system was developed for practical nondestructive evaluation (NDE) applications. The major feature of this SQUID–NDE system is that the SQUID sensor itself scans in 3D by traveling over the surface of an object during testing without the Cited by: 9.

Ketchen M B, Gallagher W J, Kleinsasser A W and Murphy S DC squid flux focuser SQUID' Superconducting Quantum Interference Devices and their Applications (Berlin: de Gruyter) pp Google Scholar.

Abstract. DC Superconducting QUantum Interference Devices (SQUIDs) incorporating two resistively shunted tunnel junctions are routinely fabricated from thin films of low-transition-temperature (T c) integrated superconducting input coil couples the SQUID to the signal by: Superconductivity in the cuprate YBa2Cu3O7 (YBCO) persists up to huge magnetic fields (B) up to several tens of Teslas, and sensitive direct current (dc) superconducting quantum interference devices (SQUIDs) can be realized in epitaxially grown YBCO films by using grain boundary Josephson junctions (GBJs).

Here we present the realization of high-quality YBCO. A self-consistent model of the Josephson junction, Superconducting Quantum Interference Devices and their Applications: SQUID, H.D. Hahlbohm & H. Lübbig (Eds.); Berlin, New York: de Gruyter35–49 Google Scholar.

We are reporting on the development of a self-propelled-type superconducting quantum interference device (SQUID) magnetic imaging system for nondestructive evaluation (NDE).

We recently completed a novel SQUID instrument that can continuously travel back and forth by itself over the surface of sample during testing without using a magnetic Cited by: 8.

A dc superconducting quantum interference device (SQUID) was used to amplify radio-frequency signals that were coupled to one end of the microstrip formed by the input coil and the SQUID.

We have fabricated and tested high-T c magnetometers based on DC superconducting quantum interference device (SQUID).The SQUID was made from YBa 2 Cu 3 O 7−δ thin film deposited on SrTiO 3 bicrystal substrate.

The noise spectrum was characterized at 77 K and showed that above 5 Hz, the magnetometer sensitivity is limited by a white noise level of Cited by: 4. Giffard R P Fundamentals for SQUID applications Superconducting Quantum Interference Devices and their Applications ed H D Hahlbohm and H Lübbig (Berlin: de Gruyter & Co) pp [81] Seppä H and Sipola H A high open-loop gain controller Rev.

Sci. Instrum. 61 Cited by: Josephson junctions and superconducting quantum interference devices (SQUIDs) were made by depositing thin films of YBa 2 Cu 3 O 7 on bicrystal substrates of Y‐ZrO 2 and SrTiO 3. Of particular interest is the possibility of constructing a radio-frequency superconducting quantum interference device (r.f.

SQUID), for use as an extremely sensitive magnetometer2. The operation. Introduction. A DC biased superconducting quantum interference device (DC SQUID) based on Nb Josephson tunnel junction is one of the most sensitive magnetic with appropriate geometry can work in a wide range of frequencies ( Hz to a few GHz) making them suitable for the detection of small signals in different kinds of experiments such as Cited by: 7.

Superconducting Quantum Interference Devices: State of the Art and Applications REINHOLD KLEINER, DIETER KOELLE, FRANK L.

The first volume presents the theory of SQUIDs, their fabrication from low- and high-temperature superconductors, the necessary readout electronics, and the design and performance of practical direct current and radio-frequency SQUIDs. It concludes with an overview of the most important SQUID system issues.

Hahlbohm H D and Lubbig H (ed.) SQUIDS ' Superconducting Quantum Interference Devices and Their Applications (New York: de Gruyter) Swithenby S J SQUIDS and their applications in the measurement of weak magnetic fields J. Phys. E: Sci. Instrum. 13 Cited by: 3. An integrated magnetic nanosensor based on a niobium dc SQUID (superconducting quantum interference device) for nanoscale applications is presented.

The sensor, having a washer shape with a hole of nm and two Josephson–Dayem nanobridges of 80 nm × nm, consists of a Nb(30 nm)/Al(30 nm) bilayer patterned by electron beam Cited by: SQUID (Superconducting quantum interference device) SQUID magnetometry is an extremely sensitive absolute magnetometry technique resulting in the equipment being noise sensitive.

It makes them impractical in high DC magnetic fields and in pulsed magnets. Inductive pickup coils.