1st Edition

The Möbius Strip Topology History, Science, and Applications in Nanotechnology, Materials, and the Arts

    926 Pages 173 Color & 115 B/W Illustrations
    by Jenny Stanford Publishing

    926 Pages 173 Color & 115 B/W Illustrations
    by Jenny Stanford Publishing

    In the 19th century, pure mathematics research reached a climax in Germany, and Carl Friedrich Gauss (1777–1855) was an epochal example. August Ferdinand Möbius (1790–1868) was his doctoral student whose work was profoundly influenced by him. In the 18th century, it had been mostly the French school of applied mathematics that enabled the rapid developments of science and technology in Europe. How could this shift happen? It can be argued that the major reasons were the devastating consequences of the Napoleonic Wars in Central Europe, leading to the total defeat of Prussia in 1806. Immediately following, far-reaching reforms of the entire state system were carried out in Prussia and other German states, also affecting the educational system. It now guaranteed freedom of university teaching and research. This attracted many creative people with new ideas enabling the “golden age” of pure mathematics and fundamental theory in physical sciences.

    Möbius’ legacy reaches far into today’s sciences, arts, and architecture. The famous one-sided Möbius strip is a paradigmatic example of the ongoing fascination with mathematical topology. This is the first book to present numerous detailed case studies on Möbius topology in science and the humanities. It is written for those who believe in the power of ideas in our culture, experts and laymen alike.

    1. Nineteenth-Century Science Breakthroughs in Europe: Historical Background

    2. A. F. Möbius: The Time of His Early Life and Academic Education (1790–1815)

    3. A. F. Möbius: The Time of His Academic Career (1815–68)

    4. During the Napoleonic Wars in Europe: Eyewitnesses and Victims

    5. Möbius Strip Topology and More: Elaborations on Mathematics

    6. A. F. Möbius and His Time: Elaborations on Astronomy

    7. Möbius Strip Topology: Applications from Chemistry

    8. The Möbius Strip Topology: Applications from Physics and Nanomaterials

    9. Möbius Strip Topology: Highlights from the Arts and Architecture

    Biography

    Klaus Möbius received his Diploma in physics and chemistry (1962), his PhD in natural sciences (1965), and his Habilitation in experimental physics (1969) from the Free University Berlin (FUB), Germany. After his postdoctoral research at the University of California, USA, he joined FUB as a professor (1971). His magnetic resonance research on (bio)organic molecules was driven by national and international collaborations, for example, with groups in Berlin, Munich, Osnabrück, Mülheim (Ruhr), Jerusalem, Novosibirsk, Kazan, Moscow, Sendai, Leiden, Wroclaw, Padova, and Bologna. He has received numerous honors and awards, such as the Max Planck Research Award (1992); Roessler Lecturer Award, Cornell University, New York (2001); Cross of Merit of the Federal Republic of Germany (2006); invited scholar at Tohoku University, Sendai, Japan (2001); and fellow of the Institute for Advanced Studies at the Universities of Jerusalem (1990) and Bologna (2010).

    Martin Plato received his Diploma in physics and mathematics (1962) and his PhD in natural sciences (1965) from FUB. In 1963, he joined the Research Institute of AEG, Germany, and soon became the head of its Scientific Application Laboratory. In 1971, he moved to the Institute of Experimental Physics of FUB as a senior scientist in the research group of Prof. Möbius. His main activity there was quantum computational work on super-computers for analyzing magnetic resonance spectra and to determine transient molecular intermediates of bioorganic photoreactions (until his retirement in 1997). He continued the magnetic resonance cooperation with Prof. Möbius at FUB until 2020. Since 2014, he has been working with a research team at Wilhelm Foerster Observatory, Berlin, on astrometric problems such as flyby anomaly of solar space vehicles.

    Anton Savitsky received his Diploma in physics (1993) from Novosibirsk University, Russia, and his PhD (1996) from the University of Zurich, Switzerland. In 1997, he joined the research group of Prof. Möbius as a senior researcher. In 2009, he joined the Max Planck Institute of Bioinorganic Chemistry, Mülheim, Germany, as a research group leader. In 2018, he moved to the Department of Physics at the Technical University Dortmund, Germany. His research focuses on developing magnetic resonance methods, in particular at high magnetic fields, and their applications in biology, chemistry, medicine, and physics.