©2005-2012 Ulm University, Othmar Marti
[Nächste Seite] [Vorherige Seite] [vorheriges Seitenende] [Seitenende] [Ebene nach oben] [PDF-Datei][Andere Skripte]


[Ato07]    Atomsondenbenutzer at de.wikipedia. Feldionemikroskopbild einer Wolframspitze mit einem ⟨110⟩-Pol in der Mitte. Wikipedia.de, 2007. By Atomsondenbenutzer.Atomsondenbenutzer at de.wikipedia [Public domain], from Wikimedia Commons.

[AW95]    George B. Arfken and Hans J. Weber. Mathematical Methods for Physicists. Academic Press, 1995.

[Bay69]    Gordon Baym. Lectures on quantum mechanics. The Bnjamin/Cummings Publishing Company, Reading, Massachusetts, 1969.

[Bel81]    L. Belloni. Historical remarks on the «classical» electron radius. Lettere Al Nuovo Cimento (1971-1985), 31:131–134, 1981. 10.1007/BF02822412.

[BK70]    F. J. Boerio and J. L. Koenig. Raman scattering in crystalline polyethylene. The Journal of Chemical Physics, 52(7):3425–3431, 1970.

[Boh13]    Niels Bohr. The spectra of helium and hydrogen. Nature, 92:231–232, October 1913.

[Boh15]    N. Bohr. Xlii. on the quantum theory of radiation and the structure of the atom. Philosophical Magazine Series 6, 30(177):394–415, 1915.

[Boh18]    Niels Bohr. On the quantum theory of line-spectra. (D. Kgl. Danske Vidensk. Selsk. Skrifter, Naturvidensk. og Mathem. Afd. 8. Række, IV.1, 1-3, IV:394–433, 1918.

[Boh20]    N. Bohr. Über die serienspektra der elemente. Zeitschrift für Physik A Hadrons and Nuclei, 2:423–469, 1920. 10.1007/BF01329978.

[Bri64]    William B. Bridges. Laser oscillation in singly ionized argon in the visible spectrum. Applied Physics Letters, 4(7):128–130, 1964.

[BSMM00]    I.N. Bronštein, K.A. Semendjajew, G. Musiol, and H. Mühlig. Taschenbuch der Mathematik. Verlag Harri Deutsch, 2000.

[CM91]    Olivier Carnal and Jürgen Mlynek. Young’s double-slit experiment with atoms: A simple atom interferometer. Physical Review Letters, 66:2689–2692, 1991.

[Com23]    Arthur H. Compton. A quantum theory of the scattering of x-rays by light elements. Physical Review, 21(5):483–502, 1923.

[Deh88]    H. Dehmelt. A single atomic particle forever floating at rest in free space: New value for electron radius. Physica Scripta Volume T, 22:102–110, January 1988.

[Dem93]    Wolfgang Demtröder. Laserspektroskopie. Springer-Verlag, Heidelberg, 3rd edition, 1993.

[DHH+95]    M. Deutsch, G. Hölzer, J. Härtwig, J. Wolf, M. Fritsch, and E. Förster. K α and K β x-ray emission spectra of copper. Phys. Rev. A, 51:283–296, Jan 1995.

[Ein05]    Albert Einstein. Über die von der molekulartheoretischen Theorie der Wärme geforderten Bewegung von in ruhenden Flüssigkeiten suspendierten Teilchen. Annalen der Physik, 17:891–921, 1905.

[FH14]    J. Franck and G. Hertz. Über die erregung der quecksilberresonanzlinie 253,6 μμ durch elektronenstösse. Deutsche Physikalische Gesellschaft. Verhandlungen, 16:512–517, 1914.

[Gun57]    E. L. Gunn. Fluorescent x-ray spectral analysis of powdered solids by matrix dilution. Analytical Chemistry, 29(2):184–189, 1957.

[HG91]    M. Henzler and W. Göpel. Oberflächenphysik des Festkörpers. Teubner Verlag, 1st edition, 1991.

[Hin96]    Hinsch. Elektronik. Springer, 1996.

[Hol00]    G. Holton. Millikan’s struggle with theory. Europhysics News, 31:12–14, May 2000.

[HRW03]    David Halliday, Robert Resnick, and Jearl Walker. Physik. Wiley-VCH GmbH, 2003. QC 21/2003 H.

[HW04]    Hermann Haken and Hans Christoph Wolf. Atom- und Quantenphysik. Springer Verlag, 8th edition, 2004.

[JBH61]    A. Javan, W. R. Bennett, and D. R. Herriott. Population inversion and continuous optical maser oscillation in a gas discharge containing a he-ne mixture. Phys. Rev. Lett., 6:106–110, Feb 1961.

[JSY82]    F. Jona, J.A. Strozier, and W.S. Yang. Low-energy electron diffraction for surface structure analysis. Reports of Progress in Physics, 45:527–585, 1982.

[Kel95]    Ursula Keller. Ultrashort Time Optics: An Overview, pages 295–305. Volume 300 of Marti and Möller [MM95], 1995.

[Kne78]    Fritz Kneubühl. Repetitorium der Physik. Teubner, 1978.

[Kom96]    Michael Komma. Moderne Physik mit Maple. Int.Thomson Pub. Bonn, 1996.

[KS08]    F. Kneubühl and M. Sigrist. Laser. Vieweg + Teubner, Zürich, 7. auflage edition, 2008.

[Lak06]    Joseph R. Lakowicz. Principles of Fluorescence Spectroscopy. Springer, 2006.

[LL79]     L.D. Landau and E.M. Lifschitz. Quantenmechanik. Akademieverlag Berlin, 1979.

[Möß58]    Rudolf Mößbauer. Gammastrahlung in ir191. Zeitschrift für Physik, 151:124–143, 1958.

[Mai60]    T. H. Maiman. Stimulated optical radiation in ruby. Nature, 187:493 – 494, 1960.

[Mar87]    Othmar Marti. Scanning tunneling microscope at low temperatures. Ph.d thesis, ETH (Federal Institute of Technology), 1987.

[Mes06]    Dieter Meschede. Gerthsen Physik. Springer Verlag, 23rd edition, 2006. QC 21/2006 G-1 Ex.2.

[Mil11]    R. A. Millikan. The isolation of an ion, a precision measurement of its charge, and the correction of stokes’s law. Physical Review Series I, 32:349–397, April 1911.

[Mil13]    R. A. Millikan. On the elementary electrical charge and the avogadro constant. Phys. Rev., 2:109–143, 1913.

[MM95]    Othmar Marti and Rolf Möller, editors. Photons and Local Probes, volume 300 of E. Kluwer Academic Publishers, 1995.

[MRH+92]    0. Marti, A. Ruf, M. Hipp, H. BielefeIdt, J. Colchero, and J. Mlynek. Mechanical and thermal effects of laser irradiation on force microscope cantilevers. Ultramicroscopy, 42-44:345–350, 1992.

[Mül51]    E. W. Müller. Feldionenmikroskop. Z. Physik, 136:131, 1951.

[Per09]    Jean Perrin. Mouvement brownien et réalité moléculaire. Annales de chimie et de physiqe, VIII 18:5–114, 1909.

[Pér96]    José-Philippe Pérez. Optik. Spektrum Akademischer Verlag, Heidelberg, 1996.

[Rei65]    Federick Reif. Fundamentals of Statistical and Thermal Physics. McGraw Hill, 1965.

[Rou99]    Roulston. An Introduction to the Physics of Semiconductor Devices. Oxford University Press, 1999.

[SHA+91]    Nobuhiko Sarukura, Kiyoshi Hata, Takashi Adachi, Ryoichi Nodomi, Masayoshi Watanabe, and Shuntaro Watanabe. Coherent soft-x-ray generation by the harmonics of an ultrahigh-power krf laser. Phys. Rev. A, 43:1669–1672, Feb 1991.

[SHK00]    S. Schön, M. Haiml, and U. Keller. Ultrabroadband AlGaAs∕CaF2 semiconductor saturable absorber mirrors. Appl. Phys. Lett., 77(6):782–784, August 2000.

[Sig82]    Markus Werner Sigrist. Laser. Vorlesung ETH Zürich, 1982.

[Sim90]    Károly Simonyi. Kulturgeschichte der Physik. Akadémiai Kiadó, Budapest und Urania-Verlag Leipzig/Jena/Berlin, 1st edition, 1990.

[Som16a]    Arnold Sommerfeld. Zur quantentheorie der spektrallinien 1. Annalen der Physik, 356(17):1–94, 1916.

[Som16b]    Arnold Sommerfeld. Zur quantentheorie der spektrallinien 2. Annalen der Physik, 356(18):125–167, 1916.

[Tho97]    John Joseph Thomson. Cathode rays. Philosophical Magazine, 44:293–316, 1897.

[Tho26]    Llewellyn Thomas. The motion of the spinning electron. Nature, 117:514, 1926.

[TM04]    Paul A. Tipler and Gene Mosca. Physik. Spektrum Verlag, 2nd edition edition, 2004. ISBN-13: 978-3827411648.

[vS06]    Marian von Smoluchowski. Zur kinetischen Theorie der Brownschen Molekularbewegung und der Suspensionen. Annalen der Physik, 21:756–780, 1906.

[WVM+99]   Bernhard Wehling, Peter Vandenabeele, Luc Moens, Reinhold Klockenkämper, Alex von Bohlen, Guido Van Hooydonk, and Martine de Reu. Investigation of pigments in medieval manuscripts by micro raman spectroscopy and total reflection x-ray fluorescence spectrometry. Microchimica Acta, 130:253–260, 1999. 10.1007/BF01242913.

[Yar75]    A. Yariv. Quantum Electronics, 2nd Edition. John Wiley and Sons, New York., 1975.

[Nächste Seite] [Vorherige Seite] [vorheriges Seitenende] [Seitenanfang] [Ebene nach oben]
©2005-2012 Ulm University, Othmar Marti