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1. Local Structure, Composition and Electronic Properties of Rare Earth Oxide Thin Films Studied Using Advanced Transmission Electron Microscopy Techniques (TEM-EELS)

   This contribution aims to demonstrate the ability of transmission electron microscopy (TEM) and its associated techniques, high-resolution...

   Sylvie Schamm, Giovanna Scarel, Marco Fanciulli in Rare Earth Oxide Thin Films

   Chapter
   

2. Identification of the Structure of Nanoscale Layers of Multilayer Heterocomposites using Transmission Electron Microscopy

   Abstract

   The methods of transmission electron microscopy and high-resolution electron microscopy, used to study multilayer heterocomposites, have...

   R. L. Volkov, N. I. Borgardt in Semiconductors

   Article 01 January 2023
   

3. Attosecond electron microscopy by free-electron homodyne detection

   Time-resolved electron microscopy aims to track nanoscale excitations and dynamic states of matter at a temporal resolution ultimately reaching the...

   John H. Gaida, Hugo Lourenço-Martins, ... Claus Ropers in Nature Photonics

   Article Open access 12 February 2024
   

4. Machine learning in scanning transmission electron microscopy

   Scanning transmission electron microscopy (STEM) has emerged as a uniquely powerful tool for structural and functional imaging of materials on the...

   Sergei V. Kalinin, Colin Ophus, ... Stephen J. Pennycook in Nature Reviews Methods Primers

   Article 03 March 2022
   

5. Coulomb-correlated electron number states in a transmission electron microscope beam

   While correlated electrons are at the heart of many phenomena in condensed matter, as well as atomic and molecular physics, Coulomb interactions in...

   Rudolf Haindl, Armin Feist, ... Claus Ropers in Nature Physics

   Article Open access 22 June 2023
   

6. Time-correlated electron and photon counting microscopy

   Electron microscopy based on high-energy electrons allows nanoscopic analytical imaging taking advantage of secondarily generated particles....

   Sotatsu Yanagimoto, Naoki Yamamoto, ... Takumi Sannomiya in Communications Physics

   Article Open access 20 September 2023
   

7. Creation of transverse domain walls in permalloy nanowires using Lorentz transmission electron microscopy: progress, opportunities, and challenges

   Studying on the creation and propagation of magnetic domain walls in Permalloy nanowires over the past two decades has increased dramatically. Each...

   Duc-Quang Hoang, Thanh-Qui Nguyen, Xuan-Huu Cao in Journal of the Korean Physical Society

   Article 04 April 2023
   

8. Ion Microscopy on Diamond

   Because of its physical properties (strong radiation hardness, wide energy gap with a consequent extremely low dark current, very large electron and...

   Claudio Manfredotti in Carbon

   Chapter
   

9. Analysis of SARS-CoV-2 interactions with the Vero cell lines by scanning electron microscopy

   In this study, scanning electron microscopy (SEM) was used to study the cell structure of SARS-CoV-2 infected cells. Our measurements revealed...

   Zuzana Malá, Marek Vojta, ... Josef Zelenka in Journal of Biological Physics

   Article 30 June 2023
   

10. Scanning Thermal Microscopy

    Fundamental research and continued miniaturisation of systems (materials or components) have instigated and still require today the development of...

    Bernard Cretin, Séverine Gomès, ... Pascal Vairac in Microscale and Nanoscale Heat Transfer

    Chapter
    

11. Optical and Electron Microscopy of Clusters of Nd³⁺:LaF₃ Nanoparticles Synthesized by the HTMW Method

    Abstract

    A comparative study of the sizes and spatial structure of single dielectric colloidal nanoparticles of lanthanum fluoride, doped with...

    G. O. Silaev, V. N. Krasheninnikov, ... Yu. G. Vainer in Physics of Wave Phenomena

    Article 01 June 2023
    

12. Expanding the Analytical Capabilities of Scanning Electron Microscopy in the Detection of Backscattered Electrons

    Abstract—

    New possibilities for the mode of detecting backscattered electrons in a scanning electron microscope (SEM) are presented. The technique for...

    S. V. Zaitsev, E. Yu. Zykova, ... V. A. Kiselevskii in Instruments and Experimental Techniques

    Article 04 December 2023
    

13. Full-Field Structured-Illumination Super-Resolution X-ray Transmission Microscopy

    The transfer of synchrotron techniques back into laboratory or industrial environments drives the research on applications of inverse Compton X-ray...

    Benedikt Sebastian Günther in Storage Ring-Based Inverse Compton X-ray Sources

    Chapter 2023
    

14. High-speed atomic force microscopy in ultra-precision surface machining and measurement: challenges, solutions and opportunities

    The atomic force microscope (AFM) possesses a unique capability for three-dimensional, high-resolution imaging down to the atomic level. It operates...

    Chen Yang, Chao-Qun Dang, ... Bing-Feng Ju in Surface Science and Technology

    Article Open access 27 September 2023
    

15. Coherently amplified ultrafast imaging using a free-electron interferometer

    Accessing the low-energy non-equilibrium dynamics of materials and their polaritons with simultaneous high spatial and temporal resolution has been a...

    Tomer Bucher, Harel Nahari, ... Ido Kaminer in Nature Photonics

    Article 03 July 2024
    

16. Ultrafast Electron Microscopy: An Instrument of the XXI Century

    Abstract

    Ultrafast electron microscopy (UEM) has made it possible to visualize laser-induced time-dependent processes in materials with a high spatial...

    S. A. Aseev, B. N. Mironov, ... A. A. Ischenko in Crystallography Reports

    Article 23 July 2021
    

17. Modeling Si/SiGe quantum dot variability induced by interface disorder reconstructed from multiperspective microscopy

    SiGe heteroepitaxial growth yields pristine host material for quantum dot qubits, but residual interface disorder can lead to qubit-to-qubit...

    Luis Fabián Peña, Justine C. Koepke, ... Ezra Bussmann in npj Quantum Information

    Article Open access 27 March 2024
    

18. Electron Probe Microanalysiswith Cryogenic Detectors

    Electron probe X-ray microanalysis (EPMA) is based upon the use of a focused, high current density electron beam, 5 to 30 keV in energy, to excite...

    D.E. Newbury, K.D. Irwin, ... J.M. Martinis in Cryogenic Particle Detection

    Chapter
    

19. Electron Microscopy and Electron Energy Loss Spectroscopy of Thin Titanium Nitride Films in the TiN_x/La:HfO₂(Hf_0.5Zr_0.5O₂)/TiN_x/SiO₂ System

    Abstract

    The structure and properties of TiN _x electrodes obtained by plasma-assisted atomic layer deposition in the 20 nm TiN _x /10 nm La:HfO ₂ (Hf _0.5 Zr _0.5...

    E. I. Suvorova, O. V. Uvarov, ... K. V. Chizh in Bulletin of the Russian Academy of Sciences: Physics

    Article 23 October 2023
    

20. Resolution characteristic measure of trimetallic Au/Pt/Cu based nano-fluids and TiO₂ nano-films by using parametric indirect microscopy for biological application

    In biology, nanoparticles play a crucial role in making antibacterial medicine for different diseases and have been widely used for...

    Nagendra P. Yadav, Zhengpeng Yao in Journal of Optics

    Article 12 May 2023