• Produktbild: Europium Monoxide
  • Produktbild: Europium Monoxide
Band 265

Europium Monoxide Semiconductor and Ferromagnet for Spintronics

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

04.04.2018

Abbildungen

XV, 93 illus., 2 illus. in color., farbige Illustrationen, schwarz-weiss Illustrationen

Verlag

Springer

Seitenzahl

189

Maße (L/B/H)

24.1/16/1.7 cm

Gewicht

483 g

Auflage

1st ed. 2018

Originaltitel

Semiconductor and Ferromagnetic europium monoxide in spintronics

Sprache

Englisch

ISBN

978-3-319-76740-6

Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

04.04.2018

Abbildungen

XV, 93 illus., 2 illus. in color., farbige Illustrationen, schwarz-weiss Illustrationen

Verlag

Springer

Seitenzahl

189

Maße (L/B/H)

24.1/16/1.7 cm

Gewicht

483 g

Auflage

1st ed. 2018

Originaltitel

Semiconductor and Ferromagnetic europium monoxide in spintronics

Sprache

Englisch

ISBN

978-3-319-76740-6

Herstelleradresse

Springer-Verlag KG
Sachsenplatz 4-6
1201 Wien
AT

Email: GPSR Kontakt

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  • Produktbild: Europium Monoxide
  • Produktbild: Europium Monoxide
  • Introduction 

    PART I.  EuO - ferromagnetic and semiconductor

    Chapter 1. Features of formation of electron band structure and physical properties of ferromagnetic        semiconductor EuO

    1.1. Band structure and magnetism 

    1.2. Electrical and photo optical characteristics 

    1.3. Magnetic characteristics 

    1.4. Effect of high pressure on the magnetic and electrical parameters 

    1.5. Magneto-optical and microwave Parameters 

    1.6. Ferromagnetic and electron paramagnetic resonance 

    1.7. Critical behavior of magnetic and thermodynamic parameters 

    1.8. Magnetic polaron and transition metal - insulator

    Chapter 2. Methods of synthesis of europium monoxide

    2.1. Thermal analysis system Eu2O3: C and the thermal reduction method of carbon Eu2O3

    2.2. Metallothermic reduction Eu&

    lt;2O 3

    2.3. Thermal characteristics of europium monoxide

    2.4. Synthesis of single crystals EuO

    2.5. Obtaining thin films EuO

    2.6. The cationic state films EuO

    2.7. The phase diagram of europium - oxygen

    2.8. Europium monoxide as a phase of variable composition

    2.9. The thermodynamic parameters and specific heat EuO

    Chapter 3. Raising the Curie temperature of the ferromagnetic semiconductor EuO

    3.1. Physical principles of raising the Curie temperature of the magnetic

           semiconductor and their implementation

    3.2. Magnetic impurity states and magnetic quasi-molecule in the doped magnetic      

           semiconductor

    3.3. Raising the Curie temperature and the properties of non-degenerate solid

           solutions Eu 1-xSm xO

    3.4. Magnetic quasi-molecule in a ferromagnetic semiconductor with the non-

           degenerate type of conductivity

    3.5. Magnetic-thermodynamic study of solid solutions Eu 1-xGd xO with the quasi metallic 

           type of conductivity

    3.6. Features of the critical behavior of the specific heat of solid solutions Eu1-xGdxO

    3.7. Effect of high pressure on the Curie temperature and magnetization of solid solutions Eu1-xRxO

    PART II. EuO as a spintronics

    Chapter 4. Theoretical background of the Josephson effect in superconducting tunnel    junctions with  ferromagnetic barrier

    4.1. Magnetic impurities in superconducting electrodes

    4.2. Tunnel Hamiltonian method

    4.3. Of the Josephson critical current dependence on the concentration

            paramagnetic im

    purities in superconductors

    4.4. Paramagnetic impurities in the dielectric barrier

    4.5. The ordered magnetic impurities in the dielectric barrier

    4.6. Magnetic impurities in the metallic interlayer C / M / C - transition

    4.7. Superconducting transitions with the ferromagnetic layer

    4.8. Possible mechanisms of pair tunneling through the F- barrier

            and the occurrence of a spin-polarized current transport

    Chapter 5. Creating and study of the properties of multilayers and superconducting tunnel junctions with EuO

    5.1. Create multilayer planar structures with the participation of films EuO

    5.2. A study of current-voltage characteristics of the tunnel junction NbN / EuO / Pb

    5.3. The structure of NbN / EuO / Pb in the external magnetic field

    5.4. The magnetization of multilayers C / EuO

    5.5. The magnetization of multilayers HTS / EuO

    Chapter 6. Creating, research and application of h

    eterostructures metal / ferromagnetic semiconductor (EuO) and ferromagnetic semiconductor (EuO) / semiconductor

    6.1. The structure of metal / ferromagnetic semiconductor (EuO) as a solid-state source of spin- polarized electrons

    6.2. The structure of metal / ferromagnetic semiconductor (EuO) as magnetically (spin) diode

    6.3. The structure of ferromagnetic semiconductor (EuO) / semiconductor as a base 

           submillimeter spin electronics

    6.4. Creating heterostructures ferromagnetic semiconductor (EuO) / semiconductor and method of frequency measurement

    6.5. Observation microwave and submicrowave radiation in spin transport in heterostructures  FS (EuO) / S  and  FM / S

    6.6. Estimates opportunities stimulated microwave FS / S heterostructures

    6.7. The formation of a standing wave and evaluation of thermal and quantum FS / S heterostructures noises 

    Chapter

    7. Creating a high-spin injector based EuO

    7.1. Search and creation of spin injectors based on composite materials

    7.2. Synthesis and properties of composite EuO: Fe - high-temperature spintronics

    7.3. Research spintronics EuO: Fe by Mössbauer spectroscopy method

    7.4. Electronic band structure of the solid solution Eu1-xFexO. Calculation and

           comparison with experimental data for EuO: Fe composite

    7.5. Spintronics EuO: Fe in contact with the nonmagnetic semiconductor

    7.6. Tasks to create a spin transistor with an injector EuO: Fe

    Conclusion

    References