Association
Magnetic Oxide Heterostructures: EuO on Cubic Oxides ... - JuSER
Magnetic Oxide Heterostructures: EuO on Cubic Oxides ... - JuSER
- No tags were found...
You also want an ePaper? Increase the reach of your titles
YUMPU automatically turns print PDFs into web optimized ePapers that Google loves.
Bibliography 141<br />
[116] S. Hüfner. Photoelectron Spectroscopy: Principles and Applications, chapter 2.3 “Core<br />
Polarization”, pages 83–92. Advanced Texts in Physics. Springer, 3rd edition, 2010.<br />
ISBN: 9783642075209. → p. 33<br />
[117] F. Gerken. Calculated photoemission spectra of the 4f states in the rare-earth metals.<br />
J. Phys F, 13(3):703, 1983. doi: 10.1088/0305-4608/13/3/021. → p. 34<br />
[118] O. Gunnarsson and K. Schönhammer. Double occupancy of the f orbital in the Anderson<br />
model for Ce compounds. Phys. Rev. B, 31:4815–4834, 1985. doi: 10.1103/Phys-<br />
RevB.31.4815. → p. 34<br />
[119] R. Schiller. Correlation Effects and Temperature Dependencies in Thin Ferromagnetic Films:<br />
Magnetism and Electronic Structure. PhD thesis, Humboldt-Universität zu Berlin, 2000.<br />
→ p. 34<br />
[120] R. Schiller and W. Nolting. Temperature-dependent Band Structure of a Ferromagnetic<br />
Semiconductor Film. Phys. Rev. B, 60(1):462–471, 1999. doi: 10.1088/0953-<br />
8984/11/48/316. → p. 34<br />
[121] E. Bauer. Phänomenologische Theorie der Kristallabscheidung an Oberflächen. Z.<br />
Krist., 110(1–6):372–394, Jan 1958. doi: 10.1524/zkri.1958.110.1-6.372. → p. 36<br />
[122] D. Sander and H. Ibach. Surface free energy and surface stress, volume 42 section A2 of<br />
The Landolt-Börnstein database, chapter 4.4.7, pages 19–44. SpringerMaterials, 4-2012<br />
edition, 2002. doi: 10.1007/b79071. → p. 37<br />
[123] F. J. Himpsel, J. E. Ortega, G. J. Mankey, and R. F. Willis. Magnetic nanostructures.<br />
Adv. Phys., 47(4):511–597, 1998. doi: 10.1080/000187398243519. → p. 37<br />
[124] A. Tsoga and P. Nikolopoulos. Surface and grain-boundary energies in yttria-stabilized<br />
zirconia (YSZ 8 mol%). J. Mat. Science, 31:5409–5413, 1996. doi: 10.1007/BF01159310.<br />
→ p. 37<br />
[125] E. A. Paisley, M. D. Losego, B. E. Gaddy, J. S. Tweedie, R. Collazo, Z. Sitar, D. L. Irving,<br />
and J.-P. Maria. Surfactant-enabled epitaxy through control of growth mode with<br />
chemical boundary conditions. Nat. Commun., 2:461, 2011. doi: 10.1038/ncomms1470.<br />
→ p. 37<br />
[126] B. E. Deal and A. S. Grove. General Relationship for the Thermal Oxidation of Silicon.<br />
J. Appl. Phys., 36(12):3770–3778, 1965. doi: 10.1063/1.1713945. → p. 37<br />
[127] C. Krzeminski, G. Larrieu, J. Penaud, E. Lampin, and E. Dubois. Silicon dry oxidation<br />
kinetics at low temperature in the nanometric range: Modeling and experiment. J. Appl.<br />
Phys., 101(6):064908, 2007. doi: 10.1063/1.2711764. → pp. 37 and 38<br />
[128] S. D. Flade. Spin-Filter Tunneln in magnetischen Oxid-Silizium-Kontakten. Master’s thesis,<br />
Universität Duisburg-Essen, Jan 2013. → pp. 38 and 121<br />
[129] A. Tempel and B. Schumann. Determination of lattice parameters at thin<br />
epitaxial layers by RHEED. Kristall und Technik, 14(5):571–574, 1979. doi:<br />
10.1002/crat.19790140510. → p. 39