Organic superconductors and more on striped phase in cuprates

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Published by Nova Science Publishers in Huntington, N.Y .

Written in English

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  • Organic superconductors.,
  • Copper oxide superconductors.,
  • High temperature superconductors.

Edition Notes

Includes bibliographical references and index.

Book details

Statementeditor, Anant Narlikar.
SeriesStudies of high temperature superconductors ;, v. 34
ContributionsNarlikar, A. V., 1940-
LC ClassificationsQC611.98.O74 O72 2000
The Physical Object
Pagination321 p. :
Number of Pages321
ID Numbers
Open LibraryOL3579825M
ISBN 10156072854X
LC Control Number2002265904

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Organic Superconductors and More on Striped Phase in Cuprates: Studies of High Temperature Superconductors (v.

34). Get this from a library. Organic superconductors and more on striped phase in cuprates. [A V Narlikar;]. The book deals in detail with theories of the mechanism of superconductivity, and more briefly with spin-density waves.

The design, principle, and synthesis of organic superconductors are also described. This second edition covers the research activities of the last few years. Striped superconductors: how spin, charge and Organic superconductors and more on striped phase in cuprates book orders intertwine in the cuprates To cite this article: Erez Berg et al New J.

Phys. 11 View the article online for updates and enhancements. Related content Electronic nature of high temperature cuprate superconductors M R Norman and C Pépin-A phenomenological theory of theCited by: Modeling of Superconducting Stripe Phases in High-Tc Cuprates.

The book is intended for advanced graduate students and post-docs in the field as textbook and/or main reference, but also for. We are pleased to note that one of these papers reports on the discovery of a new organic superconductor with a record high Tc in this class. One chapter is devoted to a comparison of organic superconductors and the cuprates, another, to the prospects of discovering other novel conducting or superconducting compounds.

This book contains papers presented at the International Conference on Organic Superconductivity which was held May, at the Stanford Sierra Conference Center, South Lake Tahoe, California. In the twenty years since the First Conference on Organic Superconductivity was held (Hawaii, ), there has been remarkable progress in the field.

Historically, quasi-low-dimensional superconductors were considered as the main candidates to observe high-temperature superconductivity. For a disc- sion of the related exotic mechanisms of superconductivity, suggested by W.A.

Little and V.L. Ginzburg, see a. • For p,d,and f wave superconductors the phase and/or momentum-dependence of superconducting wave function matters Name S L Examples s-wave 0 0 Nb, NbTi, Nb 3 Ge, maybe pnictides p-wave 1 1 Sr 2 RuO 4 d-wave 0 2 Cuprates, probably CeCoIn 5 f-wave 1 3 Probably UPt 3 Good resource: Mackenzie and Maeno, Rev Mod Phys 75 ().

Organic Superconductors InH. Kamerlingh Onnes discovered that various metals conduct electricity with zero resistance when cooled to very low temperatures. Since then, this phenomenon of superconductivity has been the subject of intense research, as scientists have explored the properties of superconductors and searched for materials.

In this review, we mainly introduce the development and present status of organic superconductors of CT type based on electron donor molecules such as ET, electron acceptor molecules such as C 60 (highest T c = 38 K at GPa), aromatic hydrocarbons (highest T c = 33 K at ambient pressure (AP)), M(dmit) 2 (highest T c = K at GPa //b.

In book: Studies of High Temperature Superconductors Vol. Organic Superconductors and More on Striped Phase in Cuprates, Publisher: Nova Science Publishers, Inc., Editors: A.

Narlikar, pp Chevrel phase superconductors Rare-earth based ternary superconductors and quaternary borocarbides Heavy fermion superconductors Organic superconductors Superconducting magnesium diboride High temperature cuprate superconductors Thin film technology and conductor development of HTS cuprates Bulk HTS cuprates   The physics of stripe phases in the cuprate superconductors has been reviewed in and more recently in.

It is important to stress that the macroscopically superconducting phase of the cuprates reflects the existence of a spatially uniform Q = 0 component of the order parameter, whether or not there is substantial finite range superconducting. for the properties of conventional metals and superconductors, fails entirely to address many features of the cuprates, and more generally of a broad array of “highly correlated electron systems” of which the cuprates are the most studied example.

A schematic phase diagram of the cuprates is shown in Fig. Science 14 Jun Vol.Issuepp. DOI: /science Epoxide ring opening is more efficient with the higher order cuprate than with Gilman reagents, and attack is at the less sterically hindered carbon.

a Reaction of with di-n-propylcuprate, for example, gave only % of Similar reaction with Pr 2 Cu(CN)Li 2 gave an 86% yield ofHigher order cuprates give excellent yields of conjugate addition with α,β-unsaturated. An organic superconductor is a synthetic organic compound that exhibits superconductivity at low temperatures.

As of the highest achieved critical temperature for an organic superconductor at standard pressure is 33 kelvins, observed in the alkali-doped fullerene RbCs 2 C In Klaus Bechgaard synthesized the first organic superconductor (TMTSF) 2 PF 6 (the corresponding. Before the discovery of superconductivity in cuprates, the A15 systems were considered as high-T c systems possess many anomalies in both their superconducting and normal states compared with elemental superconductors, and their superconductivity was thus thought to be unconventional.

Most low T c classical superconductors are s-wave types, and the more recent high T c cuprates are d-wave types. Finally, the response of a superconductor in a magnetic field is deduced. A part of the chapter is devoted to a discussion of organic superconductors and fullerenes.

This book covers the whole field of superconductivity from. The cuprates, some of the first discovered HTS, have significantly higher critical temperatures than "ordinary" superconductors (e.g., aluminum and lead superconductors have a critical temperature.

The third edition of this proven text has been developed further in both scope and scale to reflect the potential for superconductivity in power engineering to increase efficiency in electricity transmission or engines. The landmark reference remains a comprehensive introduction to the field, covering every aspect from fundamentals to applications, and presenting the latest developments in.

The initial development rapidly evolved into an intensive worldwide research effort — which still persists after more than a decade — to understand the phenomenon of cuprate superconductivity, to search for ways to raise the transition temperature and to produce materials which have the potential for technological applications.

important workshops [1,2] on phase separation and Jahn-Teller polarons in cuprates superconductors bringing together scientists active in these fields.

After ten years of research on the physics of cuprate perovskites, together with Alex Muller, we decided to organize the. This chapter reviews results and insights on high-T C superconductors from the nuclear magnetic resonance (NMR) technique, with emphasis on local hole density, d-wave superconducting gap and its consequences, and the nature of the addition to the total hole density in the CuO 2 plane, the partition of the holes between Cu and O orbits is an important factor in determining T C.

More information: W. Li et al, Superconductivity in a unique type of copper oxide, Proceedings of the National Academy of Sciences (). DOI: /pnas ISBN: OCLC Number: Description: xxxi, pages: illustrations (some color) ; 24 cm: Contents: Superconducting materials --a topical overview --Superconductivity at ultra-low temperatures and its interplay with nuclear magnetism --Superconductivity in heavy fermion compounds --One dimensional organic superconductors --Superconductivity in.

ical properties). Not all cuprates are superconductors, but ∼ different materials so far known, with T c ranging from a few K (original Bi samples) to ∼ K (Hg under 20 GPa). T c of −K in dozens of different materials. Books etc.: Shaked et al., ANL ‘pocket-book.

One aspect of organic superconductors such as the Bechgaard salts that makes them interesting topics of study are that the are strongly anisotropic in structure (for more information see the crystal structure section), so that their conductivity differs along the three axes by multiple orders of magnitude.

This inhibits the generation of the. This chapter is on Chevrel-phase superconductors, which stand out as potential materials for ultra-high-field applications. These materials have some similarities with HTS cuprates and face some of the same hurdles for practical applications. Superconductivity of Chevrel-phase compounds was previously thought to be conventional singlet s-wave type.

The book carries extended articles on tunnelling and magno-tunelling studies giving new insights into superconductivity of curates and of unconventional systems. The five chapters comprising the book have been contributed by active and renowned researchers from six : Hardcover.

This chapter discusses superconductivity as an extraordinary scientific discipline where the original curiosity, excitement, and challenges are still continuing, perhaps even more, a century after Kamerlingh Onnes’ discovery in It takes a brief look at the last years of path-breaking advances in the field of superconductors, taking stock of prominent events in basic and applied.

More information: Edwin W. Huang et al. Numerical evidence of fluctuating stripes in the normal state of high-Tccuprate superconductors, Science.

The first high-temperature superconductor was discovered inin ceramic compounds of copper and oxygen known as cuprates. These materials could reach superconductivity around 35 degrees.

cuprates superconductor having Tc upto K. Organic Superconductor An organic superconductor is an organic compound which exhibits superconductivity at low temperatures. The first organic superconductor, (TMTSF) 2PF 6 was synthesized by Klaus Bechgaard in 1. Here, TMTSF serve as electron donor and PF 6-serve as electron acceptor.

This. The main purpose of the book is twofold. First, to show that, under suitable conditions, superconductivity can occur above room temperature. Second, to present general guidelines how to synthesize a room-temperature superconductor.

The book begins with an introduction into the physics of the superconducting state and superconducting materials. PHYS/2 t Lecture 4 The cuprate superconductors: generalities 2 to note that in the case of a single-plane (n= 1) material the constitution of the spacing layers relative to the CuO 2 plane is such that each Cu atom is surrounded by six O atoms (4 in the plane, cf.

below, and 2 in the neighboring spacing layers) at approximately equal. Discover Book Depository's huge selection of Anant Narlikar books online. Free delivery worldwide on over 20 million titles. Studies of High Temperature Superconductors, Volume Anant Narlikar.

27 Jan Hardback. Organic Superconductors & More on Striped Phase in Cuprates. Anant Narlikar. 01 Dec Hardback. US$ Add to. anisotropic organic metals even for s-wave supercon-ductivity nodes of the gap function could be ex-pected 6.

One motivation for the notion of uncon-wx ventional superconductivity in the anomalous com-plex organic superconductors is certainly based on the growing solid evidence for a superconducting d-wave ground state in the cuprates and the.

Chevrel Phases and Boron Carbides Heavy-Fermion Superconductors Natural and Artificial Layered Superconductors The Superconducting Oxides Cuprates Bismuthates, Ruthenates, and Other Oxide Superconductors Iron Pnictides and Related Compounds Organic Superconductors.

Studies of High Temperature Superconductors by A. V. Narlikar,available at Book Depository with free delivery worldwide.More recently, developments in the exfoliation of van der Waals (vdW) layered materials have made atomically thin 2D superconductors more readily accessible (e.g., ML-TaS 2) (18–21).

Subsequent studies have revealed a form of superconductivity characterized by strong Ising spin-orbit coupling equivalent to applying magnetic fields on the.Publication List ( ~ /09/20 ; English only ) Book [1] "Growth and properties of La thin films", H.

Sato, A. Tsukada, M. Naito, H. Yamamoto and A. Matsuda, in “Studies of High Temperature Superconductors: Organic Superconductors and More on Striped Phase in Cuprates ”, Vol. 34, ed. A. Narlikar (Nova Science Publishers, Inc.

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