Results 131 to 140 of about 330,347 (201)
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Electron-beam processing for sterilization
Radiation Physics and Chemistry, 1993Abstract High-powered, 10-MeV linear accelerators offer advantages for sterilization of medical products. A highly effective quality assurance program must be in place to ensure the appropriate dose is delivered to each product unit and that all required documentation is produced.
S.L. Iverson, J.W. Barnard, K.K. Mehta
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Electron and Laser Beam Processing
Japanese Journal of Applied Physics, 1964Drilling of various materials by electron and laser beams has been studied with the purpose of comparing the two kinds of processing. The minimum spot obtainable with the electron beam is smaller than that with the laser beam. Hence a smaller hole can be perforated by the electron beam.
Susumu Namba, Pil Hyon Kim
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Electron Beam Processing of Semiconductors
MRS Proceedings, 1982ABSTRACTElectron beams can transfer energy very efficiently to semiconductors. Systems have been developed for rapid heating to temperature around 1000°C under a variety of conditions from adiabatic to isothermal. Pulsed, focused, line and synthesized shaped beams are used to obtain a wide range of thermal cycles.
B. Ahmed, R.A. McMahon
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Atomic-Scale Electron Beam Processing
Japanese Journal of Applied Physics, 1999Atomic-scale electron beam processing was demonstrated using high-resolution transmission electron microscopy. Nanometer-size holes were produced through mag nesium oxide films. The minimum hole size was 0.84 nm and the minimum distance between the holes was 0.63 nm.
Tokushi Kizuka, Takashi Yanaka
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Nanoscale electron-beam-stimulated processing
Applied Physics Letters, 2003Electron-beam-stimulated deposition and etching has been investigated as a clean, alternative method for nanoscale selective processing. Depositions using W(CO)6 and hydrocarbon sources have yielded efficient and selective electron-beam deposits. Primarily fluorine-based precursors have been used to etch a variety of materials.
P. D. Rack +5 more
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