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Nature, 1961
The Electron Microscope The Present State of the Art. By M. E. Haine, with a Chapter on Applications in Collaboration with Dr. V. E. Cosslett. Pp. xvi + 282. (London: E. and F. N. Spon, Ltd., 1961). 55s. net.
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The Electron Microscope The Present State of the Art. By M. E. Haine, with a Chapter on Applications in Collaboration with Dr. V. E. Cosslett. Pp. xvi + 282. (London: E. and F. N. Spon, Ltd., 1961). 55s. net.
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Nanosecond electron microscopes
Ultramicroscopy, 2000Combining electron optics, fast electronics and pulsed lasers, a transmission and a photoelectron emission microscope were built, which visualize events in thin films and on surfaces with a time resolution of several nanoseconds. The high-speed electron microscopy is capable to track fast laser-induced processes in metals below the ablation threshold ...
R Elschner +4 more
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Electron microscope autoradiography
Experimental Cell Research, 1961Experiments combining the techniques of tritium autoradiography with the high resolving power of the electron microscope in conjunction with an extremely thin section and overlying emulsion are discussed. Although autoradiographic techniques were successfully applied to ultra-thin sections and the high resolution of the electron microscope, silver ...
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Salpingoscopy: Light microscopic and electron microscopic correlations
International Journal of Gynecology & Obstetrics, 1992In order to examine the ability of salpingoscopy to diagnose intratubal pathology, 32 fallopian tubes were evaluated salpingoscopically and histologically. Both flexible and rigid salpingoscopes were used, and observations were documented by intratubal photography.
Alan H. DeCherney +11 more
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Electron ptychography of 2D materials to deep sub-ångström resolution
Nature, 2018Aberration-corrected optics have made electron microscopy at atomic resolution a widespread and often essential tool for characterizing nanoscale structures.
Yi Jiang +11 more
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The Transmission Electron Microscope
1996A typical commercial transmission electron microscope (TEM) costs about $5 for each electron volt (eV) of energy in the beam and, if you add on all available options, it can easily cost up to $10 per eV. As you’ll see, we use beam energies in the range from 100,000 to 400,000 eV, so a TEMis an extremely expensive piece of equipment. Consequently, there
C. Barry Carter, David B. Williams
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Electron Microscope Autoradiography
1966The opportunity to accurately localize radioactive substances in tissues at the cellular level became available with the introduction of relatively low energy beta-emitters, combined with the techniques of autoradiography. The major advantage offered by autoradiography is the ability to infer the location of individual molecules on the basis of the ...
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Integration of a confocal Raman microscope in an electron microscope
SPIE Proceedings, 2000In this research project a confocal Raman micro spectrometer (CRM) will be designed and incorporated in a scanning electron microscope (SEM). The aim is to develop a new analytical instrumentation to investigate samples on their morphology, atomic composition and molecular composition. Application of the CRM-SEM is in the field of bio-material research
J. D. de Bruijn +5 more
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The Transmission Electron Microscope
1998This chapter gives a short description of the physical instrumentation of the transmission electron microscope (fixed beam and scanning modes). It starts with the fundamental physics of electron dynamics for energies in the range 100–1000 keV. Some types of magnetic lenses and aberration correctors used to focus the electrons in the microscope are ...
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