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Writing a memoir was not only an interesting experience for this Professor of Applied Physics at Stanford University, but it also provided him an opportunity to revisit his past with his sons. The author graduated from Cornell in 1953 in Engineering Physics and received his PhD in Physics in 1956 at the University of Illinois. He was then at the General Electric Research Laboratory until 1965, when he moved to Stanford. He has seen his life transform from a physics student to husband, father, author, professor, scoutmaster, von Humboldt scholar, and sometimes musician. His published books include Pseudopotentials, Solid State Theory, Elementary Electronic Structure, and Applied Quantum Mechanics. Here he draws a parallel with the ancient alchemical goal of transforming lead into gold. The reader will find this engaging memoir rich in anecdotes and stories that constitute the various transformations resulting in what may be called a 'golden experience'.
Frontiers in Electronics includes the best papers of WOFE-11 invited by the Editors and down selected after the peer review process. This book is conceived to make available in the international arena extended versions of selected, high impact talks. The papers are divided into four sections: advanced terahertz and photonics devices; silicon and germanium on insulator and advanced CMOS and MOSHFETs; nanomaterials and nanodevices; wide band gap technology for high power and UV photonics.
To enable further scaling for future generations of DRAM capacitors, significant efforts to replace Zirconium dioxide as high-k dielectric have been undertaken since the 1990s. In calculations, Calcium titanate has been identified as a potential replacement to allow a significant capacitance improvement. This material exhibits a significantly higher permittivity and a sufficient band gap. The scope of this thesis is therefore the preparation and detailed physical and electrical characterization of ultrathin Calcium titanate layers. The complete capacitor stacks including Calcium titanate have been prepared under ultrahigh vacuum to minimize the influence of adsorbents or contaminants at the ...
This book features peer-reviewed papers that were presented at the 28th International Conference on the Physics of Semiconductors. This biannual conference presents and discusses all important developments and outstanding recent results in the field of semiconductor physics: one of the most important disciplines in solid state physics. Semiconductor physics provides the scientific basis for the microelectronic device industry.
Christian Pauly demonstrates the strong topological properties of the technologically relevant phase change materials Sb2Te3 and Ge2Sb2Te5 by using two powerful techniques for mapping the surface electronic structure: scanning tunneling spectroscopy (STS) and angle-resolved photoemission spectroscopy (ARPES). In the case of a phase change material, this opens up the possibility of switching between an insulating amorphous and a conducting topological phase on nanosecond-time scales. Moreover, the author presents first experimental results of a weak topological insulator, namely on the bismuth-based graphene-like sheet system Bi14Rh3I9, revealing a topologically protected one-dimensional edge channel as its fingerprint. The edge state is as narrow as 0.8 nm, making it extremely attractive to device physics. Those strong and weak topological insulators are a new phase of quantum matter giving rise to robust boundary states which are protected from backscattering and localization.