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Sunday, November 1, 2020 | History

4 edition of Colossal magnetoresistive oxides found in the catalog.

Colossal magnetoresistive oxides

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Published by Gordon and Breach Science Publishers in Amsterdam, The Netherlands .
Written in English

    Subjects:
  • Magnetoresistance.,
  • Manganese oxides.

  • Edition Notes

    Includes bibliographical references and index.

    Statementedited by Yoshinori Tokura.
    SeriesAdvances in condensed matter science,, v. 2
    ContributionsTokura, Y. 1954-
    Classifications
    LC ClassificationsQC610.7 .C655 2000
    The Physical Object
    Paginationx, 358 p. :
    Number of Pages358
    ID Numbers
    Open LibraryOL3630002M
    ISBN 109056992317
    LC Control Number2002421673
    OCLC/WorldCa44576562

    Reviews and Book Chapters. Y.D. Chuang and D.S. Dessau “The Electronic Structure, Fermi Surface, and Pseudogap in Manganites”, Chapter 3 pgs. in “Colossal Magnetoresistive Manganites” Ed, Tapan Chatterji, Kluwer academic publishers, Dordrecht, The . Colossal magnetoresistive oxidesDilute magnetic semiconductors. Standing waves and the liquid/solid interface. H2O(gas) H2O(liq) OH Fe-oxide. Curriculum vitae. Honorary Member of the International Scientific Committee of the International Conferences on Vacuum Ultraviolet and X-Ray Physics, NSLS Activity Report 2 - 68 Structural Correlations and the Colossal Magnetoresistance Effect C.S. Nelson,1 V Kir. yukhin, 2 J.P. Hill,1 and Doon Gibbs1 1Department of Physics, Brookhaven National Laboratory, Upton, NY 2Department of Physics and Astronomy, Rutgers University, Piscataway, NJ Perovskite manganites are a class of materials that. In 'Colossal Magnetoresistive Manganites'edited by T. K. Chatterji (Kluwer Academic Publishers, ) "Orbital ordering and resonant x-ray scattering in colossal magnetoresistive manganites" S. Ishihara and S. Maekawa In " Nanoscale Phase Separation and Colossal Magnetoresistance - The Physics of Manganites and Related Compounds -" by E. Dagotto.


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Colossal magnetoresistive oxides Download PDF EPUB FB2

Colossal Magnetoresistive Oxides - CRC Press Book. The features and mechanism of Colossal Magnetoresistance, or CMR, in manganese oxides as well as device physics are highlighted in this book, with a focus on Colossal magnetoresistive oxides book MR for some artificial structures.

Underlying new science, such as tunable electron-lattice interaction in a metal and roles of. The features and mechanism of Colossal Magnetoresistance, or CMR, in manganese oxides as well as device physics are highlighted in this book, with a focus on tunneling MR for some artificial structures.

Underlying new science, such as tunable electron-lattice interaction in a metal and roles of orbital degrees of freedom in producing an unconventional metallic feature, is also 5/5(3). The features and mechanism of Colossal Magnetoresistance, or CMR, in manganese oxides as well as device physics are highlighted in this book, with a focus on tunneling MR for some artificial by: Colossal magnetoresistance (CMR) is a property of some materials, mostly manganese-based perovskite oxides, that enables them to dramatically change their electrical resistance in the presence of a magnetic magnetoresistance of conventional materials enables changes in resistance of up to 5%, but materials featuring CMR may demonstrate resistance changes.

The features and mechanism of Colossal Magnetoresistance, or CMR, in manganese oxides as well as device physics are highlighted in this book, Colossal magnetoresistive oxides book a focus on tunneling MR for some artificial structures. Underlying new science, such as tunable electron-lattice interaction in a metal and roles of orbi.

The features and mechanism of Colossal Magnetoresistance, or CMR, in manganese oxides as well as device physics are highlighted in this book, with a focus on tunneling MR for some artificial : $ ISBN: OCLC Number: Description: x, pages: illustrations ; 24 cm.

Contents: Fundamental Features of CMR Manganites Fundamental Features of Colossal Magnetoresistive Manganese Oxides / Y. Tokura Theory of CMR Manganites / A.J. Millis --Spin Dynamics and Electronic Structures Review of Spin.

Fundamental Features of Colossal Magnetoresistive Manganese Oxides The magnetoresistance (MR), that means the resistance change induced by an external magnetic field, is phenomena observed, more or less, in all metals and semiconductors [1].Cited by: 8.

Direct Electronic Structure Measurements of the Colossal Magnetoresistive Oxides / D.S. Dessau and Z.-X. Shen --Materials Systematics and Lattice Effects Structural Response to Orbital, Spin, and Charge Ordering in Colossal Magnetoresistive Materials / J.F.

Mitchell, D.N. Argyriou and J.D. Jorgensen 1. Introduction. The particular magnetoresistance (MR) phenomena described here are the gigantic decrease of resistance by application of a magnetic field that is observed for the manganese oxides (manganites) with perovskite or related a gigantic negative MR is now termed “colossal magnetoresistance” (CMR) to distinguish it from the giant Cited by: Colossal Magnetoresistive Manganites Softcover reprint of the original 1st ed.

Edition. The physics of transition metal oxides has become a central topic of interest to condensed-matter scientists ever since high temperature superconductivity was discovered in hole-doped cuprates with perovskite-like structures.

Although the renewed Author: Tapan Chatterji. The features and mechanism of Colossal Magnetoresistance, or CMR, in manganese oxides as well as device physics are highlighted in this book, with a focus on tunneling MR for some artificial structures.

Underlying new science, such as tunable electron-lattice interaction in a metal and roles of orbital degrees of freedom in producing an unconventional metallic feature, is also.

Colossal Magnetoresistance, Charge Ordering And Related Properties Of Manganese Oxides - Ebook written by Rao C N R, Raveau Bernard.

Read this book using Google Play Books app on your PC, android, iOS devices. Download for offline reading, highlight, bookmark or take notes while you read Colossal Magnetoresistance, Charge Ordering And Related Properties Of.

The physics of transition metal oxides has become a central topic of interest to condensed-matter scientists ever since high temperature superconductivity was discovered in hole-doped cuprates with perovskite-like structures.

Although the renewed interest in Brand: Springer Netherlands. Colossal Magnetoresistive Oxides. The magnetic properties of the lanthanum manganese oxide class of materials have attracted tremendous interest recently because of the dramatic increase in conductivity these systems exhibit when the magnetic moments order ferromagnetically, either by lowering the temperature or applying a magnetic field.

Colossal magnetoresistance [–] is a property of some materials, mostly manganese-based perovskite oxides, that enables them to dramatically change their electrical resistance in the presence of a magnetic field. The magnetoresistance of conventional materials enables changes in resistance of up to 5%, but materials featuring CMR may.

The perovskite-type manganese oxides are overviewed in the light of the mechanism of colossal magnetoresistance (CMR). The essential ingredient of the CMR physics is not only the double-exchange Cited by: 3. Issues in colossal magnetoresistance (CMR) manganese oxides: – The effect of oxidation state in Ln 1 xA MnO 3 where Ln is a trivalent rare-earth (Ln = La, Pr, Nd) and A is an alkaline earth metal (A = Ca, Sr, Ba).

The most studied compositions are x˘when about one-third of the Mn are in the 4+ oxidation Size: KB. Colossal Magnetoresistive Oxides 1st Edition. Yoshinori Tokura The features and mechanism of Colossal Magnetoresistance, or CMR, in manganese oxides as well as device physics are highlighted in this book, with a focus on tunneling MR for some artificial structures.

Publisher: Springer ISBN Title: Colossal Magnetoresistive Manganites Item Condition: New. Author: Chatterji, Tapan ISBN X. A new aspect of metal oxides — colossal magnetoresistance exhibited by certain manganese oxides, in particular rare earth manganates of perovskite structure — has received much attention in the last four years.

Some of these oxides show % magnetoresistance and have much potential for technological applications. This book is intended to be an account of the latest developments in the phys­ ics of CMR manganites. When I planned this book back inI thought that research on the physics of CMR manganites would be more or less consolidated by the time this would be published.

I was obviously very optimistic indeed. Polaron Formation in Colossal Magnetoresistive Oxides. The magnetic properties of the lanthanum manganese oxide class of materials have attracted tremendous interest recently because of the dramatic increase in conductivity these systems exhibit when the magnetic moments order ferromagnetically, either by lowering the temperature or applying a magnetic field.

Apart from the colossal magnetoresistive and percolation driven metal-insulator transition, these materials are known to have unusual magnetic properties such as the formation of "short range. Examples of these materials are manganese oxides, nickelates and cuprates whose electronic, magnetic and transport properties have displayed interesting physics including giant or colossal.

Top panel, saturation moments at 5 K (filled squares) and K (open squares) of La 5/8−y Pr y Ca 3/8 MnO 3 as a function of y of La 5/8−y Pr Cited by: Thin Film Metal-Oxides, when was the last time you read a book or an abstract magazine article. Are your daily reading habits directed against tweets, Facebook updates, or directions to your instant oatmeal pack.

If you're one of the many people who do not have a habit of reading regularly, you might miss out: reading is a huge amount of. Full text of "Colossal Magnetoresistive Manganites [electronic resource]" See other formats.

Polarons in Advanced Materials will lead the reader from single-polaron problems to multi-polaron systems and finally to a description of many interesting phenomena in high-temperature superconductors, ferromagnetic oxides, conducting polymers and molecular nanowires.

The book divides naturally. The physics of transition metal oxides has become a central topic of interest to condensed-matter scientists ever since high temperature superconductivity was discovered in hole-doped cuprates with perovskite-like structures. Although the renewed interest in hole-doped perovskite manganites following the discovery of their colossal magnetoresistance (CMR) properties.

@article{osti_, title = {Charge Melting and Polaron Collapse in La{sub }Sr{sub }Mn{sub 2}O{sub 7}}, author = {Vasiliu-Doloc, L and Department of Physics, University of Maryland, College Park, Maryland and Rosenkranz, S and Osborn, R and Sinha, S K and Lynn, J W and Mesot, J and Seeck, O H and Preosti, G and Department of Physics, Northern.

The family of correlated electron oxides, such as perovskite manganites exhibiting colossal magnetoresistance, has attracted great interest in Cited by: 6. The temperature dependence of the electronic and atomic structure of the colossal magnetoresistive oxides La1 xSrxMnO3 (x =) has been studied using core and valence level photoemission, x-ray absorption and emission, and extended x.

Multiferroics. Materials that are both ferroelectric and magnetic–multiferroics–are rare. This is because in most ferroelectrics, such as BaTiO 3, the ferroelectricity is driven by a hybridization of empty d orbitals with occupied p orbitals of the octahedrally coordinated oxygen ions.

This mechanism requires empty d orbitals and thus cannot lead to multiferroic behavior. Giant magnetoresistance (GMR) is a quantum mechanical magnetoresistance effect observed in multilayers composed of alternating ferromagnetic and non-magnetic conductive layers.

The Nobel Prize in Physics was awarded to Albert Fert and Peter Grünberg for the discovery of GMR. The effect is observed as a significant change in the electrical resistance depending on. is a new addition to the family of colossal magnetoresistive oxides.

Experimental Details. Polycrystalline Eu 1-xLa xTiO 3 (x =) samples were synthesized by solid-state reaction method.

Powder of Eu 2O 3, La 2O 3 and TiO 2 were mixed in the stoichiometric ratio. Prior to mixing, La 2O 3 was preheated at ° C for 8 hours to.

Colossal magnetoresistance (CMR) is a property of some materials, mostly manganese-based perovskite oxides, that enables them to dramatically change their electrical resistance in the presence of.

Magnetoresistance has aroused great interest recently because of possible application in devices such as read/write heads in computer discs and in sensors. Colossal Magnetoresistance has been predominantly discovered in manganese-based perovskite oxides. This arises because of strong mutual coupling of spin, charge and lattice degrees of freedom.

Colossal magnetoresistance definition is - an extreme change in electrical resistance (as of a conductive material) due to the presence of an applied magnetic field. How to use colossal magnetoresistance in a sentence.

We report on magnetic field and temperature-dependent measurements of the anisotropic magnetoresistance (AMR) in epitaxial La1−xSrxMnO3 (LSMO) thin films.

Anisotropic magnetoresistance in colossal magnetoresistive La 1 Colossal Magnetoresistive Oxides, edited by Y. Tokura (Gordon and Breach, Amsterdam, The Netherlands, Cited by:.

Colossal magnetoresistance Figure 1. Schematic structures of the Ruddelsden–Popper series of layered compounds. Here n is the number of connected layers of vertex-sharing MnO6 octahedra.

For nD1, the structure is that of K2NiF4 and nD2 is the bilayer structure (both have tetragonal space groups I4=mmm, ZD2), and nD1the distorted perovskite structure .In recent decades, extensive studies have been conducted on controlling and engineering novel functionalities in transition metal oxide (TMO) heterostructures by epitaxial strain.

In this chapter, we discuss popular transition metal oxide thin films in the context of various research fields that are extensively studied in condensed matter physics. These materials include Author: Abhijit Biswas, Yoon Hee Jeong.Abstract: Colossal magnetoresistance (CMR) and related properties of perovskite manganates of the general formula Ln 1− x A x MnO 3 (Ln = rare-earth; A = divalent ion) are discussed in manganates are ferromagnetic at or above a certain value of x (or Mn 4+ content) and become metallic at temperatures below the curie temperature, T behavior is commonly .