Publikace

Ve výpisu publikací najdete všechny důležité publikační výsledky výzkumu a vývoje našich vědeckých pracovníků od roku 1961.

  1. NEW INSIGHTS INTO PHYSICAL SCIENCE Vol. 4, 2020, Chapter 10, p. 117-146; Editor: Thomas F. George, Dep.of Chemistry and Physics, University of Missouri, Columbia USA; Published by: Book Publisher International, 207 Regent Street, London, 2020. ISBN 978-93-90206-53-7 (Print), ISBN 978-93-90206-54-4 (eBook)
  2. S. Kumar, P. Kumar, A. Das, C. S. Pathak
    Recent Advances in Nanophotonics Fundamentals and Applications
  3. M. V. Shugaev, M. He, Y. Levy, A. Mazzi, A. Miotello, N. M. Bulgakova, L. V. Zhigilei
    (2020) -.
  4. V. Jarý, J. Pejchal
    Theoretical Introduction (Chapter from Scintillation Materials book)
    Teoretický úvod (kapitola z knihy Scintilační materiály)
  5. V. Jarý, J. Pejchal
    Examples of Scintillation Materials (Chapter in Scintillation Materials book)
    Příklady scintilačních materiálů (Kapitola v knize Scintilační materiály)
  6. V. Jarý, J. Pejchal
    Application of scintillation materials (Chapter in Scintillation materials book)
    Aplikace scintilačních materiálů (Kapitola v knize Scintilační materiály)
  7. V. Jarý, J. Pejchal
    Technology of Preparation of Selected Scintillation Materials (Chapter in Scintillation Materials book)
    Technologie přípravy vybraných scintilačních materiálů (Kapitola v knize Scintilační materiály)
  8. Chapter 2 in Barkhausen Noise for Nondestructive Testing and Materials Characterization in Low-Carbon Steels, eds. Tu Le Manh, J.A. Perez-Benitez, J.H. Espina Hernandez and J.M. Hallen Lopez, in Woodhead Publishing Series in Electronic and Optical Materials, Elsevier, June 2020, pp. 25-71.
  9. 21st Century Nanoscience - A Handbook: Advanced Analytic Methods and Instrumentation (Volume 3), kapitola 21
  10. M. F. Ciappina, S. V. Bulanov, T. Ditmire, G. Korn, S. Weber
    Towards Laser Intensity Calibration Using High-Field Ionization
    Chapter 8 Towards Laser Intensity Calibration Using High-Field Ionization, pg 149 -176 in Topics in Applied Physics, Volume 136, Springer Nature Switzerland AG 2020 K. Yamanouchi and D. Charalambidis (eds.), Progress in Ultrafast Intense Laser Science XV, Topics in Applied Physics 136
  11. Chapter 4 in Domain Walls: From Fundamental Properties to Nanotechnology Concepts, edited by Dennis Meier, Jan Seidel, Marty Gregg, and Ramamoorthy Ramesh, Series on Semiconductor Science and Technology, Oxford University Press, 2020, pp. 76-108.
  12. Chapter 3 in Quantum foundations and open quantum systems, eds. Theo M Nieuwenhuizen, Claudia Pombo, Claudio Furtado, Andrei Yu Khrennikov, Inácio A Pedrosa, and Václav Špička, World Scientific, 2014, pp. 83-192.
  13. K. Herynková, I. Pelant
    Handbook of Porous Silicon, ed. L. Canham, Springer International Publishing Switzerland 2014, pp.345-354
  14. In: Nanodiamond, Published by The Royal Society of Chemistry, Cambridge, UK, 2014, Editor: Oliver A. Williams, ISBN 978-184-973-639-8, pages 290-342
  15. A. Chizhik, A. Stupakewicz, V. Zablotskyy, A. Zhukov, A. Maziewski, J. Gonzalez
    Hysteretic Properties of Magnetic Composite Microwires
    Chapter 3 in Hysteresis, Types, Applications and Behavior Patterns in Complex Systems, Nova Science Publishers, Inc. 2014, New York . ISBN: 978-1-63321-336-4
  16. J-C. Tolédano, V. Janovec, V. Kopský, J. F. Scott & P. Boček
    Equitranslational Phase Transitions
    kapitola 3.1 v knize International Tables for Crystallography vol. D: Physical properties of crystals Edited by A. Authier Kluwer Academic Publishers, Dordrecht/Boston/London, 2003
  17. V. Janovec, Th. Hahn, H. Klapper
    Twinning and domain structures
    Chapter 3.2.  Twinning and domain structures, p. 377 - 392 in International Tables for Crystallography vol. D: Physical properties of crystals Edited by A. Authier, Kluwer Academic Publishers, Dordrecht/Boston/London, 2003
  18. V. Janovec, J. Přívratská
    Domain structures
    Chapter 3.4. "Domain structures", (pp. 449 - 505) in International Tables for Crystallography vol. D: Physical properties of crystals Edited by A. Authier, Kluwer Academic Publishers, Dordrecht/Boston/London, 2003
  19. W. Friedland, P. Kundrát
    Comprehensive Biomedical Physics vol. 9 (2014) pp. 105-142.
  20. M. Jirsa, L. Půst, S. Durčok
    Thermally activated flux creep in view of some recent experiments on YBaCuO and BiSrCaCuO single crystals
    Progress in High Temperature Superconductivity, Vol. 30, World Scientific (1992) 346-351.
  21. M. Jirsa, L. Půst, J. Pačes
    On the magnetic moment relaxation in YBaCuO single crystal: Sub-second relaxation times
    Int.Conf.on Advanced Materials (ICAM), Strasbourgh (France), May 27-31, 1991, A1-VIII, P26. In: High T Superconductor Thin Films, ed. L. Correra, North-Holland (1992), p. 171-175.
  22. V. Kovacik, I. V. Vodolazskaya, J. Šebek, L. Skrbek, J. Stehno
    TRANSPORT MEASUREMENTS OF THE La2-xSrxCuO4-y SINGLE-CRYSTALS AT ULTRALOW TEMPERATURES
    PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON HIGH TEMPERATURE SUPERCONDUCTIVITY AND LOCALIZATION PHENOMENA. In: PROGRESS IN HIGH TEMPERATURE SUPERCONDUCTIVITY 32, pp. 616-621, 1992.
  23. J. Fuksa, V. Kopsky
    Lecture Notes in Physics 201 (1984) 381-383. Eds. G. Denardo, G. Ghirardi, T. Weber, Springer-Verlag, Berlin Heidelberg. Print ISBN 978-3-540-13335-3, Online ISBN 978-3-540-38859-3