Magnetic ultra thin films, multilayers, and surfaces

proceedings of Symposium E on Magnetic Ultra Thin Films, Multilayers, and Surfaces of the 1996 E-MRS Spring Conference, Strasbourg, France, June 4-7, 1996 by Symposium E on Magnetic Ultra Thin Films, Multilayers, and Surfaces (1996 Strasbourg, France)

Publisher: Elsevier in Amsterdam, New York

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Edition Notes

Other titlesJournal of magnetism and magnetic materials.
Statementedited by M.A.M. Gijs, F. Petroff.
SeriesEuropean Materials Research Society symposia proceedings ;, v. 62
ContributionsGijs, M. A. M., Petroff, F., European Materials Research Society. Meeting
LC ClassificationsQC176.9.M84 S936 1997
The Physical Object
Paginationxiv, 540 p. :
Number of Pages540
ID Numbers
Open LibraryOL438860M
ISBN 100444205039
LC Control Number98149214

Magnetic thin films and multilayers milling (Ar +, 5 keV, °) to perforation. All images and holograms were recorded at an accelerating voltage of kV. Results Thin Fe film In order to provide an initial indication of the capabilities of the new microscope, we first studied an evaporated Fe film with a thickness of about 30 nm. Magnetic alloys generally include one of three main magnetic elements such as Iron (Fe), Nickel (Ni) or Cobalt (Co). There are also magnetic intermetallic compounds referred to as “Heuslers.” We offer the following magnetic alloys for thin film deposition. the influence of non-magnetic dopants in ferromagnetic films and the effects of combining thin-film ferromagnets with vari - ous non-magnetic layers in bilayer, trilayer and multilayered configurations. The broad synthesis of this review highlights the advances in controlling and understanding damping phe-nomena in thin-films and multilayers. by: Obtaining highly sensitive ferromagnetic, FM, and nonmagnetic, NM, multilayers with a large room-temperature magnetoresistance, MR, and strong magnetic anisotropy, MA, under a small externally applied magnetic field, H, remains a subject of scientific and technical interest. Recent advances in nanofabrication and characterization techniques have further opened up several new ways through Cited by: 9.

JOURNAL DE PHYSIQUE Colloque C8, Suppl6ment au no 12, T dgcembre MAGNETIC PROPERTIES OF ULTRA-THIN FILMS U. Gradmann, H. J. Elmers and M. Przybylski Physikalisches Institut, Technische Universitaet Clausthal, Clausthal-Zellerfeld, F.R.G. and. A brief review of using soft x-ray resonant magnetic scattering in the study of magnetic thin films and multilayers is given. Results from recent studies of thin Fe films and Fe/Gd multilayers are used as examples to demonstrate the information that can be obtained and the unique features of this : Chi-Chang Kao, Erik D. Johnson, Jerome B. Hastings, D. P. Siddons, Christian Vettier. Nanomaterials, an international, peer-reviewed Open Access journal. Laboratory for Biocolloids and Surface Chemistry, Division of Physical Chemistry, Ruđer bošković Institute, Bijenička c. .   A magnetic phenomenon newly discovered by MIT researchers could lead to much faster, denser and more energy-efficient chips for memory and computation.

  Engineering novel magnetic and electronic phases in ultra-thin films (Nanowerk News) Physicists at the University of Arkansas and their collaborators have engineered novel magnetic and electronic phases in the ultra-thin films of in a specific electronic magnetic material, opening the door for researchers to design new classes of material for the next generation of electronic and. 13 Conductive Metal Oxide Thin Films. Volume 5 Magnetic Thin Films 1 Nanoimprinting Techniques 2 The Energy Gap of Clusters, Nanoparticles and Quantum Dots 3 Electronic States In GaAs-AlAs Short-period Superlattices: Energy Levels and Symmetry 4 Spin Waves in Thin Films, Multi-Layers, and Superlattices 5 Quantum Well Interference in Double. MULTILAYERS PREPARED BY ELECTRODEPOSITION Introduction Results and discussion Ni and Cu layer preparation and the thickness Crystalline structure of a Ni/Cu multilayer MR curves of the pure Ni and NiCu alloy thin films MR curves of the Ni/Cu multilayer thin films The Thin Film Magnetism Group (TFM) is at the forefront of ultrathin magnetic film and magnetic nanostructure research. Major research areas include magnetic mesostructures and spin transport. We investigate novel magnetic properties and spin-polarized electron transport phenomena in molecular beam epitaxy (MBE)-grown magnetic film structures.

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Purchase Magnetic Ultra Thin Films, Multilayers and Surfaces, Volume 62 - 1st Edition. Print Book & E-Book. ISBN Magnetic ultra thin films, Book Edition: 1. Magnetic Ultra Thin Films, Multilayers and Surfaces (Volume 62) (European Materials Research Society Symposia Proceedings (Volume 62)) [Petroff, F., Gijs, M.A.M.] on *FREE* shipping on qualifying offers.

Magnetic Ultra Thin Films, Multilayers and Surfaces (Volume 62) (European Materials Research Society Symposia Proceedings (Volume 62)).

Get this from a library. Magnetic ultra thin films, multilayers, and surfaces: proceedings of Symposium E on Magnetic Ultra Thin Films, Multilayers, and Surfaces of the E-MRS Spring Conference, Strasbourg, France, June[M A M Gijs; F Petroff.

Get this from a library. Magnetic ultrathin films multilayers and surfaces: symposium held April, San Francisco, California, U.S.A.

[Ernesto E Marinero;]. [PDF] Magnetic Ultrathin Films, Multilayers and Surfaces: Volume (Hardback) Magnetic Ultrathin Films, Multilayers and Surfaces: Volume (Hardback) Magnetic ultra thin films Review A whole new eBook with a new point of view.

It can be rally fascinating throgh studying period of time. Magnetic ultra thin films I am delighted to explain how this.

Nanomagnetism: Ultrathin Films, Multilayers and Nanostructures (ISSN Book 1) - Kindle edition by Mills B.S. Ph.D., D.L. L., Bland MA Ph.D., J.A.C. Download it once and read it on your Kindle device, PC, phones or tablets.

Use features like bookmarks, note taking and highlighting while reading Nanomagnetism: Ultrathin Films, Multilayers and Nanostructures (ISSN Book 1).Manufacturer: Elsevier Science. Multilayers prepared from thin films give rise to a wealth of properties, arising in particular, from the interaction between the magnetic layers, i.e., the interlayer exchange coupling.

The phenomenon of exchange bias, discovered in granular materials, has also been systematically studied in thin films, and finds important : Alberto P.

Guimarães. In the past 30 years, magnetic research has been dominated by the question of how surfaces and interfaces influence the magnetic and transport properties of nanostructures, thin films and multilayers.

and surfaces book Multilayers prepared from thin films give rise to a wealth of properties, arising in particular, from the interaction between the magnetic layers, i.e., the interlayer exchange coupling. Abstract. Progress in high vacuum and ultra high vacuum material preparation techniques now allow the preparation of artificial structures consisting of ultra thin films of magnetic materials, as well as multilayer systems containing stacks of different materials, some of which being by: 1.

1:f.~sEV1ER Abstract Applied Surface Science 75 () Magnetic thin films and multilayers E. Bruno 1, B.L. Gyorffy H.H. Wills Physics Laboratory, Universitv of Bristol, Tyndall Awrnre, BSS I7Z, Uk (Received 17 June ; accepted for publication 28 July ) applied surface science New surprising multilayers phenomena occur in artificial metallic thin films and : E.

Bruno, B.L. Gyorffy. The unique properties of magnetic thin films arise in part from their overall shape with the perpendicular coordinate (z-direction) being much smaller than the lateral (x-y directions) coordinates ().However, the key feature of modern magnetic thin films is the ability to Cited by: 2.

SP 5 Magnetic thin films, surface, interfaces, and nano-structured low dimensional systems. SP5 - Parallel Session 1. SP5 - Parallel Session 1 Skyrmions are chiral non-collinear magnetic textures that occur at surfaces and interfaces and are stabilized by the Dzyaloshinskii-Moryia interaction (DMI).

The Fe/Ir interface is an ideal. A thin film is a layer of material ranging from fractions of a nanometer to several micrometers in thickness. The controlled synthesis of materials as thin films (a process referred to as deposition) is a fundamental step in many applications.

A familiar example is the household mirror, which typically has a thin metal coating on the back of a sheet of glass to form a reflective interface.

MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS VOLUME Magnetic Ultrathin Films, Multilayers and Surfaces— Symposium held March 31. Main advantages: multiple possible associations of magnetic thin films and metals with large SO coupling (Pt, Ir, W etc) in bilayers or multilayers Opportunities to tune various parameters: DMI (dilution with thickness), magnetic anisotropy (ion bombardement), number of active interfaces etc.

Magnetic metallic multilayers and new devices The development of new devices based on magnetic metal-lic multilayers (MMM) has known a tremendous expansion Groupe Surfaces Interfaces, UMRCNRS-ULP, 23, rue du Loess, parameters will allow an engineering of the thin films. For example, one can use surfactants, i.e.

low surface. Magnetic skyrmions are quasiparticles that hold promise for future spintronic devices. In this Review, the detection, creation, manipulation and deletion of individual skyrmions in ultrathin films Cited by: Skyrmions at room temperature: F rom magnetic thin films to magnetic multilayers C.

Moreau-Luchaire1, Thin magnetic films appear to be more compatible wi] th technological [11, 12] to multilayers by stacking layers of magnetic metals and nonmagnetic heavy metals (e.g. Pt and Ir) so as to induce DMI at all theCited by: Facing the ever-growing demand for data storage will most probably require a new paradigm.

Magnetic skyrmions are anticipated to solve this issue as they are arguably the smallest spin textures in magnetic thin films in nature.

We designed cobalt-based multilayered thin films where the cobalt layer is sandwiched between two heavy metals providing additive interfacial Dzyaloshinskii-Moriya Cited by: Magnetic Properties of Ultra-Thin MBE-Grown Multilayers. Sukmock Lee, Sungkyun Park and Charles M.

Falco. of Magnetism and Magnetic Materials(). Modification of the Perpendicular Magnetic Anisotropy of Ultrathin Co Films due to the Presence of Overlays. Sungkyun Park, S. Lee and Charles M. Falco. MAGNETOELASTIC CHARACTERIZATION AND DOMAIN ANALYSIS OF MAGNETIC THIN FILMS AND MULTILAYERS THESIS Presented to the Graduate Council of Texas State University-San Marcos in Partial Fulfillment of the Requirements for the Degree Master of SCIENCE by Joel H.

Dunn Jr., B.S. San Marcos, Texas May Magnetic Properties of Thin Films Materials researchers at the National Institute of Standards and Technology (NIST), together with colleagues from IBM and the Massachusetts Institute of Technology, have Produced the first data on how the edges of metallic thin films contribute to.

This study is an intense research on how to optimize the process conditions of magnetic thin film fabrication using spin spray process and thus produce strong adhesion films with good magnetic properties comparable to bulk films.

The intention of this investigation is to develop magnetic thin films that will be used in microwave devices. Introduction to Surface and Thin Film Processes This book covers the experimental and theoretical understanding ofsurface and thin Chapter 2 Surfaces in vacuum:ultra-high vacuum techniques and processes 36 Interdiffusion in magnetic multilayers Further reading for chapter 5 File Size: KB.

@article{osti_, title = {High-resolution structural studies of ultra-thin magnetic, transition metal overlayers and two-dimensional transition metal oxides using synchrotron radiation}, author = {Kellar, S A and Lawrence Berkeley National Lab., CA}, abstractNote = {This thesis report the surface-structure determination of three, ultra-thin magnetic transition-metal films, Fe/Au(), Mn.

Author(s): Garica, Davil | Advisor(s): Kumar, Sandeep | Abstract: In recent years, current data storage and semiconductors have begun to reach their fundamental limits.

In current hard disk drive based data storage technology due to the size of the bit no longer being able to be reduced. And in semiconductor technologies due to current leakage effect in small devices.

Because of this, we look Author: Davil Antonio Garica. This magnetization generates magnetic poles at the surfaces of the thin film, enclosing the stray fields in a small volume of homogenous magnetization.

The volume density of this stray field energy is f m = J2 s 2µ 0 cos2 θ () This energy becomes a local property in the case of thin films, and the non-local character it has in the bulk. Preparation, Properties, and Applications of Thin Ferromagnetic Films, June 3 Preface K.

Riedling, H. Hauser Institute of Industrial Electronics and Material Science, TU Vienna Gusshausstrasse 27–29/, A Vienna In Spring, the Faculty of Electrical Engineering and Information Technology of theFile Size: 6MB.

GMR and TMR multilayers have already had a tremendous impact in magnetic data storage devices, and the magnetic semiconductors are defining a radically new avenue in spintronics [11–13].

Depending on the characteristics of materials and the cost concerns, several techniques have been employed for the growth of thin films and multilayers. Time-Domain Study of Magnetization Dynamics in Magnetic Thin Films and Micro- and Nanostructures Anjan Barman, Arabinda Haldar Thematic Unit of Excellence on Nanodevice Technology and Department of Condensed Matter Physics and Material Sciences, S.N.

Bose National Centre for Basic Sciences, Kolkata, India Contents 1. General Introduction 2 2.In Situ Real-Time Characterization of Thin Films. nor are those of ellipsometry for dealing with more problematic systems such as ultra-thin films and multilayers.

A disappointing aspect of the book is that no specific chapter is devoted to magnetic materials and their properties, currently of considerable interest to the information.1 PATTERNED MAGNETIC THIN FILMS FOR ULTRA HIGH DENSITY RECORDING J.C. LODDER, M.A.M.

HAAST AND L. ABELMANN Information Storage Technology Group, MESA+ Research Institute, University of Twente, AE Enschede, The Netherlands.