Publications

In the list of publications, you will find the complete output of our researchers since 1961.

  1. K. Dohnalová, K. Kůsová
    Optical Properties of Si Nanocrystals Enhanced by Ligands
    Chapter 1 in Lockwood D.J., Pavesi L. (eds) Silicon Photonics IV. Topics in Applied Physics, vol 139. Springer, Cham, 2021, p. 3-65, print ISBN 978-3-030-68221-7, online ISBN 978-3-030-68222-4
  2. V. Janiš
    Green functions in the renormalized many-body perturbation theory
    Simulating Correlations with Computers, Modeling and Simulations, Vol. 11, Chapter 7, pp. 7.1-7.29, Forschungszentrum Jülich 2021, ISBN 978-3-95806-529-1
  3. Pavel Ripka, K. Závěta
    Magnetic sensors and magnetometers,second edition - chapter: "Basics"
    Magnetic sensors and magnetometers,second edition - chapter: "Basics"
  4. Martin Matys, Petr Valenta, Mariana Kecova, Katsunobu Nishihara, Jan Psikal, Timur Zh. Esirkepov, James K. Koga, Ales Necas, Gabriele M. Grittani, C. M. Lazzarini, Ondrej Klimo, Georg Korn, Sergei V. Bulanov
    LASER-DRIVEN ACCELERATION OF CHARGED PARTICLES
    SUPERCOMPUTING IN SCIENCE AND ENGINEERING 2019–2020
  5. Jiang Li, Xiaopu Chen, M. Nikl
    Scintillators
    Chapt. 3. Scintillators. In: Processing of Ceramics: Breakthroughs in Optical Materials (Akio Ikesue, eds). Wiley, 2021, pp. 73-141
  6. H. Němec, P. Kužel
    Transition Between Localized and Delocalized Terahertz Conductivity in Modulated Nanostructures Studied by Monte-Carlo Calculations
    Chapter 11 in Terahertz (THz), Mid Infrared (MIR) and Near Infrared (NIR) Technologies for Protection of Critical Infrastructures Against Explosives and CBRN, NATO Science for Peace and Security Series B: Physics and Biophysics, Springer, 2021, pp. 145-151
  7. M. F. Pereira, A. Apostolakis
    Terahertz (THz), Mid Infrared (MIR) and Near Infrared (NIR) Technologies for Protection of Critical Infrastructures Against Explosives and CBRN
    Terahertz (THz), Mid Infrared (MIR) and Near Infrared (NIR) Technologies for Protection of Critical Infrastructures Against Explosives and CBRN, Mauro F. Pereira, Apostolos Apostolakis (Eds.), Springer Netherlands, (2021).
  8. Y. Shevchenko, A. Apostolakis, M. F. Pereira
    Recent Advances in Superlattice Frequency Multipliers
    Chapter 8 in Terahertz (THz), Mid Infrared (MIR) and Near Infrared (NIR) Technologies for Protection of Critical Infrastructures Against Explosives and CBRN. NATO Science Science for Peace and Security Series B: Physics and Biophysics. Springer Netherlands, 2021, pp.101-116
  9. E. Buixaderas, J. Dec
    Phonons and relaxations in unfilled tetragonal tungsten-bronzes
    Materials and Devices, Vol 5 (1), (2020) – DOI : 10.23647/ca.md20191227 Chapter in "Perovskites and other Framework Structure Materials: new trends and perspectives", editors M.B. Smirnov and P. Saint-Grégoire, Publ. by Collaborating Academics IP, - to appear in 2020 (France)
  10. L. Červinka
    Analysis of the Cosmic Microwave Background (CMB) Anisotropy Spectrum on the basis of its transformation into reciprocal space
    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)
  11. P. Lejček
    Grain boundary segregation in metals
    Pavel Lejček: Grain boundary segregation in metals (In Chinese): (Translated by Lei ZHENG and Minqing WANG) Tsinghua University Press, Beijing, 2020. ISBN: 978-7-302-56698-4
  12. S. Kumar, P. Kumar, A. Das, C. S. Pathak
    Surface-Enhanced Raman Scattering: Introduction and Applications
    Recent Advances in Nanophotonics Fundamentals and Applications
  13. M. V. Shugaev, M. He, Y. Levy, A. Mazzi, A. Miotello, N. M. Bulgakova, L. V. Zhigilei
    Laser-Induced Thermal Processes: Heat Transfer, Generation of Stresses, Melting and Solidification, Vaporization, and Phase Explosion
    (2020) -.
  14. V. Jarý, J. Pejchal
    Theoretical Introduction (Chapter from Scintillation Materials book)
    Teoretický úvod (kapitola z knihy Scintilační materiály)
  15. V. Jarý, J. Pejchal
    Examples of Scintillation Materials (Chapter in Scintillation Materials book)
    Příklady scintilačních materiálů (Kapitola v knize Scintilační materiály)
  16. V. Jarý, J. Pejchal
    Application of scintillation materials (Chapter in Scintillation materials book)
    Aplikace scintilačních materiálů (Kapitola v knize Scintilační materiály)
  17. 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)
  18. A. Stupakov
    Measurement methods
    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.
  19. K. Kůsová
    Photoluminescence Spectroscopy of Single Semiconductor Quantum Dots
    21st Century Nanoscience - A Handbook: Advanced Analytic Methods and Instrumentation (Volume 3), kapitola 21
  20. 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
  21. P. Ondrejkovič, P. Márton, V. Stepkova, J. Hlinka
    Fundamental properties of ferroelectric domain walls from Ginzburg-Landau models
    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.
  22. K. Herynková, I. Pelant
    Optical Gain in Porous Silicon
    Chapter "Optical Gain in Porous Silicon" in Handbook of Porous Silicon, ed. L. Canham, Springer International Publishing AG 2017.
  23. V. Zablotskyy, O. Lunov, T. Polyakova, A. Dejneka
    Biology and Magnetism: Mutual Attraction
    (2017) -.
  24. V. Janiš
    Dynamical Mean-Field Theory of Disordered Electrons: Coherent Potential Approximation and Beyond
    Chap. 11 in The Physics of Correlated Insulators, Metals, and Superconductors, Schriften der Forschungszentrum Jülich, Reihe Modeling and Simulation, vol. 7, Eds. E. Pavarini, R. Koch, R. Scalettar, and R. Martin (Jülich, 2017).
  25. J. Šesták, P. Hubík, J. J. Mareš, J. Stávek
    Self-organized Periodic Processes: From Macro-layers to Micro-world of Diffusion and Down to the Quantum Aspects of Light
    Chapter 6, pp. 131-158 in: Thermal Physics and Thermal Analysis. Eds: J. Šesták, P. Hubík, J. J. Mareš, Springer International Publishing Switzerland, Cham, 2017.
  26. M. Holeček, J. J. Mareš, J. Šesták, P. Hubík
    What Is the Physical and Operational Meaning of Temperature and Its Self-Measurability During Unsteady Thermal Processes Within Thermodynamic Concepts?
    Chapter 3, pp. 45-78 in: Thermal Physics and Thermal Analysis. Eds: J. Šesták, P. Hubík, J. J. Mareš, Springer International Publishing Switzerland, Cham, 2017.
  27. J. Šesták, P. Hubík, J. J. Mareš
    Thermal Analysis Scheme Anticipated for Better Understanding of the Earth Climate Changes: Impact of Irradiation, Absorbability, Atmosphere, and Nanoparticles
    Chapter 22, 471-494 in: Thermal Physics and Thermal Analysis. Eds: J. Šesták, P. Hubík, J. J. Mareš, Springer International Publishing Switzerland, Cham, 2017.
  28. J. J. Mareš, P. Hubík, V. Špička
    On the Mathematical Structure of Physical Quantities
    Chapter 24, pp. 521-540 in: Thermal Physics and Thermal Analysis. Eds: J. Šesták, P. Hubík, J. J. Mareš, Springer International Publishing Switzerland, Cham, 2017.
  29. J. Šmydke, J. Ajay, F. Remacle, R.D. Levine
    Electronic and Nuclear Dynamics for a Non-Equilibrium Electronic State: The Ultrafast Pumping of N2
    Quantum Systems in Physics, Chemistry, and Biology. Progress in Theoretical Chemistry and Physics, Vol. 30
  30. A. Vedda, I. Villa
    Medical applications of nanomaterials.
    NATO Science for Peace and Security Series B: Physics and Biophysics. NATO SCIENCE FOR PEACE AND SECURITY SERIES. B, PHYSICS AND BIOPHYSICS, p. 369-386, Springer Verlag, ISBN: 978-94-024-0848-5, ISSN: 1874-6500
  31. L. Palatinus, M. Gemmi, M. Klementová
    Electron Crystallography
    European Mineralogical Union, Notes in Mineralogy, Mineralogical Crystallography, University Textbook, edited by J. Plášil, J. Majzlan, S. Krivovichev, Volume 19, (2017), Chapter 3. 139-181, ISBN 978-0903059-5, ISSN 1417 2917
  32. Takashi Goto, Akihiko Ito, Akira Yoshikawa, Shunsuke Kurosawa, J. Pejchal
    Transparent High-Density Oxide Ceramics Prepared by Spark Plasma Sintering
    Nanocomposite, Ceramic, and Thin Film Scintillators, M. Nikl (Editor) Pan Stanford Publishing Pte. Ltd., Singapore (2016) p. 107-154.
  33. Svetlana Zazubovich, Aleksei Krasnikov, Yuriy Zorenko, Vitali Gorbenko, V. Babin, E. Mihóková, M. Nikl
    Luminescence of Pb- and Bi-Related Centers in Aluminum Garnet, Perovskite, and Orthosilicate Single-Crystalline Films
    Nanocomposite, Ceramic, and Thin Film Scintillators, M. Nikl (Editor) Pan Stanford Publishing Pte. Ltd., Singapore (2017) p. 227.
  34. Daniel Nižňanský, Jakub Růžička, A. Beitlerová, Jindřich Houžvička, Petr Horodyský, Václav Tyrpekl, Ivo Jakubec, Akira Yoshikawa, M. Nikl
    ZnO-Based Phosphors and Scintillators: Preparation, Characterization, and Performance
    Pan Stanford Publishing, 2017, Singapore, ISBN: 978-981-4745-22-2, pp. 303-332.
  35. Barbora Pacakova, Simona Kubickova, Alice Reznickova, Daniel Niznansky, J. Vejpravová
    Spinel Ferrite Nanoparticles: Correlation of Structure and Magnetism
    MAGNETIC SPINELS - SYNTHESIS, PROPERTIES AND APPLICATIONS
  36. M. Nikl
    Nanocomposite, Ceramic, and Thin Film Scintillators
    Nanocomposite, Ceramic, and Thin Film Scintillators, M. Nikl (Editor) Pan Stanford Publishing Pte. Ltd., Singapore (2017).
  37. M. Kučera, P. Průša
    LPE-Grown Thin-Film Scintillators
    Nanocomposite, Ceramic, and Thin Film Scintillators, M. Nikl (Editor) Pan Stanford Publishing Pte. Ltd., Singapore (2017) p. 155.
  38. B. Rezek, Š. Stehlík
    Surface potential of nanodiamonds investigated by KPFM
    Chapter 10 in Nanodiamonds, Advanced Material Analysis, Properties and Applications; Edited by Jean-Charles Arnault, Micro & Nano Technologies Series, Elsevier, pp. 273-300
  39. M. Kučera, P. Průša
    LPE-Grown Thin-Film Scintillators
    NANOCOMPOSITE, CERAMIC, AND THIN FILM SCINTILLATORS (Ed. M. Nikl), 2017, pp. 155-226
  40. K. Kůsová, K. Dohnalová
    Organically capped silicon nanocrystals
    Chapter 16 in Silicon Nanomaterials Sourcebook: Low-Dimensional Structures, Quantum Dots, and Nanowires, Volume One, August 2017, ISBN:9781498763776, edited by Klaus D. Sattler, CRC Press, Taylor & Francis Group, Boca Raton, USA, pp. 367-398
  41. J. Hlinka, V. Stepkova, P. Márton, P. Ondrejkovič
    Ferroelectric Domain Walls and their Intersections in Phase-Field Simulations
    Chapter 7 Ferroelectric Domain Walls and their Intersections in Phase-Field Simulations, eds. J. Seidel, Topological Structures in Ferroic Materials. Springer Series in Materials Science, vol. 228, 2016, pp.161-180.
  42. I. Pelant, J. Valenta
    Luminescence Spectroscopy of Semiconductors
    I. Pelant & J. Valenta: Luminescence Spectroscopy of Semiconductors, Oxford University Press, Oxford, 542 pp. First published in paperpback 2016
  43. J. Kamarád
    Magnetic Systems: External Pressure-Induced Phenomena
    Reference Module in Materials Science and Materials Engineering
  44. P. Lejček, V. Paidar
    Grain boundaries in iron
    -
  45. A. Castro, P. Ferreira, S. Skiadopoulou, L. P. Ferreira, M. Godinho, B. J. Rodriguez, P. M. Vilarinho
    Thin-Film Porous Ferroic Nanostructures: Strategies and Characterization
    Nanoscale Ferroelectrics and Multiferroics: Key Processing and Characterization Issues, and Nanoscale Effects, Wiley, pp. 147-162 (2016)
  46. L. Bačáková, A. Brož, J. Lišková, L. Staňková, Š. Potocký, A. Kromka
    The application of nanodiamond in biotechnology and tissue engineering
    Chapter 3 in book: Diamond and Carbon Composites and Nanocomposites, Ed.: M. Aliofkhazraei, ISBN 978-953-51-2454-2, Print ISBN 978-953-51-2453-5, Publisher: InTech, 2016, pp. 59-88
  47. K. Kůsová, P. Hapala, P. Jelínek, I. Pelant
    Band Structure of Silicon Nanocrystals
    Chapter 4 in "Silicon Nanophotonics. Basic Principles, Present Status, and Perspectives". Second Edition, ed. by L. Khriachtchev, Pan Stanford Publishing 2016, pp 109-144.
  48. J. Kopeček
    Electron back-scattered diffraction
    K. Jurek, O. Gedeon, 3. Podzimní škola rentgenové mikroanalýzy, 12. - 15. dubna 2016, Žďár nad Sázavou, Spektroskopická společnost Jana Marka Marci, 2016
  49. J. Kopeček
    Samples´ preparation
    Jurek, O. Gedeon, 3. Podzimní škola rentgenové mikroanalýzy, 12. - 15. dubna 2016, Žďár nad Sázavou, Spektroskopická společnost Jana Marka Marci, 2016
  50. A. Endo
    High-Brightness Solid-State Lasers for Compact Short-Wavelength Sources
    (2016) -.