Education

Basics

This is a lecture on mechanics for our freshmen in Technical Physics.

  • Physik I (Mechanik): Vorlesung + Aufgaben mit Lösungen

    This is a lecture on electric phenomena for the sophomore class in Technical Physics.

  • Physik II (Elektrizitätslehre): Vorlesung + Aufgaben mit Lösungen

    This is a lecture on thermodynamics for the sophomore class in Technical Physics.

  • Physik III (Thermodynamik): Vorlesung + Aufgaben mit Lösungen



    Master

    This is the obligatory basics lecture in quantum physics for our master course in micro- and nanotechnology (4 + 2 hours lectures/exercises). It is intended to cover nearly all topics (quantum mechanics, the nature of the chemical bond, solid state physics (static and dynamic), and basics of laser physics) which are required for the understanding of the following subjects. Among them are physics of low-dimensional structures, semiconductor technology, and physics of thin layers (including physics of low-temperature plasmas). Exercises and their extensive solutions are included.

  • Quantenphysik I: Quantenmechanik

  • Quantenphysik II: Festkörperphysik


    • The advanced course on the physics of semiconductor processing is a 4 hours lecture. It contains the physics vacuum technology, diffusion processes, and low temperature plasmas. It is mainly based on my book on low pressure discharges. The version presented here is based on two summer courses at Walter Schottky Institut in 2006 and 2008, resp. The final course was given 2021.

  • Plasmaphysik I: Grundbegriffe der Plasmaphysik

  • Plasmaphysik IIa: Streuprozesse

  • Plasmaphysik IIb: DC-Plasmen

  • Plasmaphysik III: Kapazitiv gekoppelte Plasmen (CCP)

  • Plasmaphysik IV: Induktiv gekoppelte Plasmen

  • Plasmaphysik V: Sputtern

  • Plasmaphysik VI: Diffusionsprozesse

  • Plasmaphysik VII: Reaktives Ionenätzen I

  • Plasmaphysik VIII: RIE: Spezielle Features

  • Plasmaphysik IX: Plasmadiagnostik

  • Plasmaphysik V:Übungen und Lösungen


    • The advanced course covers some important matters which are required for a deeper understanding of physics. First of all, the dipole and the dipole radiation ist extensively treated. This is necessary to understand the conditions of Bohr's axioms and the origin of electromagnetic mass. Some eigenvalue problems are treated: the harmonic oscillator for molecules with more than two atoms (some group theory is required), the rigid rotor, effects in the magnetic field (nmr and esr), and the hydrogen atom, especially the non-classical movement of the electron for l=0.

  • ADVANCED TOPICS



    Studium generale

    This is a course on aesthetics, particularly for music as the part of arts which depends most significantly on the category of time, and science (physics and chemistry). It is based on my book FLUKTUATIONEN and several advanced topics which can be loaded down from this page.

  • Fluktuationen


  • Inhalt der Vorlesung über Schönheit

  • Materialien zur Vorlesung über Schönheit (Bilder)

  • Materialien zur Vorlesung über Schönheit (Diagramme)

  • Materialien zur Vorlesung über Schönheit (Noten)

  • L. Bernstein zur 5. Symphonie, 1. Satz (1. Teil)

  • L. Bernstein zur 5. Symphonie, 1. Satz (2. Teil)

  • Alliteration in der Musik (L. Bernstein)

  • Musik und Semantik (L. Bernstein)

  • Steinerne Symmetrie in der Musik (L. Bernstein)

  • Konstruktion und Baugeschichte des Pantheons