Buch (23)

5721.
Buch
Hofmann, S.: Auger- and X-Ray Photoelectron Spectroscopy in Materials Science. Springer, Berlin, Heidelberg (2013), XIX,528 S.
5722.
Buch
Mittemeijer, E. J.; Welzel, U. (Hg.): Modern Diffraction Methods. Wiley-VCH, Weinheim (2012), 540 S.
5723.
Buch
Sra, S.; Nowozin, S.; Wright, S. J. (Hg.): Optimization for Machine Learning. MIT Press, Cambridge, MA, USA (2011), 494 S.
5724.
Buch
Lu, H. H.-S.; Zhao, H. (Hg.): Handbook of Statistical Bioinformatics. Springer, Berlin, Germany (2011), IX,627 S.
5725.
Buch
Hirscher, M. (Hg.): Handbook of Hydrogen Storage. Wiley-VCH, Weinheim (2010), 353 S.
5726.
Buch
Mittemeijer, E. J.: Fundamentals of Materials Science. Springer-Verlag, Berlin, Heidelberg (2010), 594 S.
5727.
Buch
Lipavsky, P.; Kolacek, J.; Morawetz, K.; Brandt, E. H.; Yang, T. J.: Bernoulli Potential in Superconductors. How the Electrostatic Field Helps to Understand Superconductivity. Springer, Berlin, Heidelberg, New York (2008), VIII,268 S.
5728.
Buch
Kronmüller, H.; Parkin, S. (Hg.): Handbook of Magnetism and Advanced Magnetic Materials. John Wiley & Sons Ltd., Chichester, UK (2007), 3064 S.
5729.
Buch
Mittemeijer, E. J.; Scardi, P.: Diffraction Analysis of the Microstructure of Materials. Springer-Verlag, Berlin [et al.] (2004), XXV,549 S.
5730.
Buch
Scherge, M.; Gorb, S.: Biological Micro- and Nanotribology Nature's Solutions. China Machine Press, Peking (2004), X,255 S.
5731.
Buch
Kronmüller, H.; Fähnle, M.: Magnetism and the Microstructure of Ferromagnetic Solids. Cambridge University Press, Cambridge (2003), 432 S.
5732.
Buch
Mecke, K.; Stoyan, D. (Hg.): Morphology of Condensed Matter - Physics and Geometry of Spatially Complex Systems. Springer, Berlin [et al.] (2002), 439 S.
5733.
Buch
Rühle, M.; Dosch, H.; Mittemeijer, E. J.; Van de Voorde, M. H. (Hg.): European White Book on Fundamental Research in Materials Science. Max-Planck-Institut für Metallforschung, Stuttgart (2001), 326 S.
5734.
Buch
Slavyanov, S. Y.; Lay, W.: Special Functions: Unified Theory Based on Singularities (with Forword by A. Seeger). Oxford University Press, Oxford (2000), 320 p S.
5735.
Buch
Zelman-Femiak, M.; Subburaj, Y.; García-Sáez, A. J.: Fluorescence correlation spectroscopy to study membrane organization and interactions. Springer

Buchkapitel (217)

5736.
Buchkapitel
Popescu, M. N.; Uspal, W. E.: Adopting the Boundary Homogenization Approximation from Chemical Kinetics to Motile Chemically Active Particles. In: Chemical Kinetics, S. 517 - 540 (Hg. Lindenberg, K.; Metzler, R.; Oshanin, G.). World Scientific, New Jersey, NJ (2020)
5737.
Buchkapitel
Kronmüller, H.: General Micromagnetic Theory and Applications. In: Materials Science and Technology (Hg. Cahn, R. W.; Haasen, P.; Kramer, E. J.). Wiley-VCH, Weinheim (2019)
5738.
Buchkapitel
Badri-Spröwitz, A.: Das Tier als Modell für Roboter, und Roboter als Modell für Tiere. In: Das verdatete Tier, S. 167 - 175 (Hg. Bolinski, I.; Rieger, S.). J. B. Metzler, Berlin (2019)
5739.
Buchkapitel
Palagi, S.; Walker, D.; Qiu, T.; Fischer, P.: Chapter 2: Nanoscale Robotic Agents in Biological Fluids and Tissues. In: The Encyclopedia of Medical Robotics, Bd. 2, S. 19 - 42 (Hg. Desai, J. P.; Ferreira, A.). World Scientific, New Jersey, NJ (2019)
5740.
Buchkapitel
Schütz, G.: Nanomagnetismus im Röntgenlicht. In: Vielfältige Physik, S. 173 - 182 (Hg. Duchardt, D.; Bossmann, A. B.; Denz, C.). Springer Spektrum, Berlin, Heidelberg (2019)
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