Publications

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

  1. Encyclopedia of Condensed Matter Physics
  2. I. Kratochvílová, P. Ashcheulov, Jakub Luštinec, Jan Macák, Petr Sajdl, Radek Škoda
    -
  3. P. Barman, M.K. Das, B. Das, V. Hamplová, A. Bubnov
    On the Structure—Property Correlations of a New Class of Chiral Liquid Crystalline Materials: A Perspective from Electro-Optic and Dielectric Measurements. In: Tavares, J.M.R.S., Rodrigues, J.J.P.C., Misra, D., Bhattacherjee, D. (eds) Data Science and Communication. ICTDsC 2023. Studies in Autonomic, Data-driven and Industrial Computing. Springer, Singapore.
  4. Chapter 6 in Selected Analytical Techniques of Solid State, Structure Identification, and Dissolution Testing in Drug Life Cycle. Analytical Techniques in Drug Life Cycle, eds. Martin Čulen, Jiří Dohnal, Josef Jampílek, Masaryk University Press, 2023, pp. 174-190
  5. Springer Nature Singapore, 2023, Ed. Xin Zhang. 420p. ISBN: 9789811988684. (pp 113-131)
  6. 239 (2023) 1-61.
  7. P. Cousin, A. Moumtzidou, A. Karakostas, L. Gounaridis, C. Kouloumentas, M. F. Pereira, A. Apostolakis, P. Gorrochategui, G. Aoust, B. Lebental
    Chapter 11 in Instrumentation and Measurement Technologies for Water Cycle Management, eds. A. D. Mauro, A. Scozzari, F. Soldovieri, in series Springer Water, Springer Water, 2022, pp. 251-277.
  8. International Tables for Crystallography, Volume I, X-ray Absorption Spectroscopy and Related Techniques, ISSN 1574-8707
  9. K. Dohnalová, K. Kůsová
    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
  10. 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
  11. Pavel Ripka, K. Závěta
    Magnetic sensors and magnetometers,second edition - chapter: "Basics"
    Magnetic sensors and magnetometers,second edition - chapter: "Basics"
  12. 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
  13. Jiang Li, Xiaopu Chen, M. Nikl
    Chapt. 3. Scintillators. In: Processing of Ceramics: Breakthroughs in Optical Materials (Akio Ikesue, eds). Wiley, 2021, pp. 73-141
  14. 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
  15. 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
  16. E. Buixaderas, J. Dec
    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)
  17. 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)
  18. S. Kumar, P. Kumar, A. Das, C. S. Pathak
    Recent Advances in Nanophotonics Fundamentals and Applications
  19. M. V. Shugaev, M. He, Y. Levy, A. Mazzi, A. Miotello, N. M. Bulgakova, L. V. Zhigilei
    (2020) -.
  20. V. Jarý, J. Pejchal
    Theoretical Introduction (Chapter from Scintillation Materials book)
    Teoretický úvod (kapitola z knihy Scintilační materiály)
  21. V. Jarý, J. Pejchal
    Examples of Scintillation Materials (Chapter in Scintillation Materials book)
    Příklady scintilačních materiálů (Kapitola v knize Scintilační materiály)
  22. V. Jarý, J. Pejchal
    Application of scintillation materials (Chapter in Scintillation materials book)
    Aplikace scintilačních materiálů (Kapitola v knize Scintilační materiály)
  23. 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)
  24. 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.
  25. 21st Century Nanoscience - A Handbook: Advanced Analytic Methods and Instrumentation (Volume 3), kapitola 21
  26. 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
  27. 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.
  28. Chapter 6: Quantum dots (pp.175-216), in: Metalorganic Vapor Phase Epitaxy (MOVPE): Growth, Materials Properties, Ed.: Stuart Irvine, Peter Capper, Wiley Series in Materials for Electronic & Optoelectronic Applications, ISBN: 978-1-119-31301-4, October 2019, 584 Pages.
  29. Martin Matys, J. Pšikal, Mariana Danielová, Petr Valenta, Sergei Vladimirovich Bulanov
    LASER-DRIVEN ION ACCELERATION USING CRYOGENIC HYDROGEN TARGETS
    SUPERCOMPUTING IN SCIENCE AND ENGINEERING 2017–18
  30. I. Fina, X. Martí
    Spintronic Functionalities in Multiferroic Oxide-Based Heterostructures
    Oxide Spintronics
  31. Chapter 4 in Recent Advances in Topological Ferroics and their Dynamics, edited by Robert L. Stamps, Helmut Schultheiß, in series Solid State Physics, Vol. 70, Academic Press, 2019, pp. 143-169.
  32. M.A.Belyanchikov, M. Savinov, Z.V.Bedran, P. Bednyakov, P.Proschek, J.Prokleska, V.I.Torgashev, E.S.Zhukova, S.S.Zhukov, L.S.Kadyrov, V.Thomas, A.Dudka, A.Zhugayevych, V.B.Anzin, R.K.Kremer, J.K.H.Fischer, P.Lunkenheimer, A.Loidl, E.Uykur, M.Dressel, B.Gorshunov
    Springer Nature Switzerland AG 2020, I. Tiginyanu et al. (eds.),4th International Conference on Nanotechnologies and Biomedical Engineering, IFMBE Proceedings 77, pp.7-11, Proceedings of ICNBME-2019, September 18-21, 2019, Chisinau, Moldova
  33. Soft polar phonon mode in SrTiO3 single crystals, ceramics and thin films
    Chapter 1 in Strontium Titanate: Synthesis, Properties and Uses, eds. A. Tkach and P. Vilarinho, in series Materials Science and Technologies, Nova Science Publishers, 2019, pp. 1-39.
  34. Radicals and ions in magnetron sputtering discharges in noble gases
    Chapter 2 in Horizons in World Physics, ed. A. Reimer, vol. 297, Nova Science Publishers, Inc., 2019, ISBN: 978-1-53614-712-4, pp. 59-116
  35. O. Sidletskiy, P. Arhipov, S. TKachenko, Ia. Gerasymov, D. Kurtsev, V. Jarý, R. Kučerková, M. Nikl, K. Lebbou, E. Auffray.
    Sidletskiy O. et al. (2019) Garnet Crystal Growth in Non-precious Metal Crucibles. In: Korzhik M., Gektin A. (eds) Engineering of Scintillation Materials and Radiation Technologies. ISMART 2018. Springer Proceedings in Physics, vol 227. Springer, Cham
  36. Š. Jelínková, I. Kratochvílová, M. Pešl, P. Skládal, V. Rotrekl, J. Přibyl
    Stem Cells: From Myth to Reality and Evolving
  37. J. Minár, I. Di Marco, J. Kolorenč
    Multiple Scattering Theory for Spectroscopies, Eds. D. Sébilleau, K. Hatada, H. Ebert
  38. Quantitative Data Processing in Scanning Probe Microscopy 2nd Edition SPM Applications for Nanometrology by Petr Klapetek
  39. Multiple Scattering Theory for Spectroscopies, Chapter 29, pp 387-397, Springer Proceedings in Physics book series (SPPHY, volume 204), 2018,ISSN 0930-8989, ISSN 1867-4941 (electronic), ISBN 978-3-319-73810-9, ISBN 978-3-319-73811-6 (eBook)
  40. J. Minár, O. Šipr, J. Braun, H. Ebert
    Multiple Scattering Theory for Spectroscopies, Chapter 4, pp 93-137, Springer Proceedings in Physics book series (SPPHY, volume 204), 2018,ISSN 0930-8989, ISSN 1867-4941 (electronic), ISBN 978-3-319-73810-9, ISBN 978-3-319-73811-6 (eBook) ISSN 0930-8989
  41. M. V. Shugaev, Miao He, S. A. Lizunov, Y. Levy, T. Derrien, V. P. Zhukov, N. M. Bulgakova, L. V. Zhigilei
    Advances in the Application of Lasers in Materials Science, Springer Series in Materials Science, Ed. P.M. Ossi, Vol. 274, Chapter 5 (2018), pages 107-148.
  42. Polycrystalline diamond coating protects Zr cladding surface against corrosion in water-cooled nuclear reactors: Nuclear fuel durability enhancement
    Advanced Coating Materials
  43. D. Savchenko, A. Pöpp, A. H. Kassiba
    Chapter 11 - CW and Pulse EPR Study of Paramagnetic Centers in Silicon Carbide Nanomaterials, pp.225-242, ISBN 978-1-68108-694-1
  44. Frontiers in Magnetic Resonance, 2018, Vol. 1, pp. 242-253, ISBN: 978-1-68108-694-1, Bentham Science Publishers 2018, Chapter 12
  45. E. Kalabukhova, D. Savchenko, B. Shanina
    Frontiers in Magnetic Resonance, 2018, Vol. 1, 254-282, Chapter 13, ISBN: 978-1-68108-694-1
  46. Chapter 46
  47. Chapter 2
  48. Chapter 16 in Kelvin Probe Force Microscopy, eds. S. Sadewasser & T. Glatzel, Springer Series in Surface Sciences, vol. 65, Springer, Cham, 2018, pp. 499-518
  49. A. Taranukhina, A. Novakovich, C.R. Natoli, O. Šipr
    Taranukhina A., Novakovich A., Natoli C.R., Šipr O. (2018) Multiple Scattering in Green’s Function Formalism: Single-Channel and Multichannel Versions. In: Sébilleau D., Hatada K., Ebert H. (eds) Multiple Scattering Theory for Spectroscopies. Springer Proceedings in Physics, vol 204. Springer, Cham
  50. Chapter 10 in Quantitative Data Processing in Scanning Probe Microscopy (Second edition), editor. P. Klapetek, , Elsevier, 2018, ISBN 978-0-12-813347-7