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Market: Scientists, engineers, and graduate students in atomic physics, astrophysics, spectroscopy, atmospheric and solid state physics, and semiconductor research.
Market: Scientists, engineers, and graduate students involved in the phenomenon of plasma physics. Numerous fundamental principles make this a much-consulted handbook on the physical phenomena, measurements, and properties of plasma physics.
Beginning with the basic operating principles of quadrupole devices, the book moves from general explanations of the actions of radio-frequency fields to descriptions of their utilization in quadrupole mass filters, monopoles, three-dimensional quadrupole ion traps, and various time-of -flight spectrometers.
Market: Students and researchers in vacuum and surface science, microscopy, and semiconductor physics. When it was written, field emission was one of the few techniques available for surface studies and the attainment of ultra-high vacuum was a little-known art.
Market: Researchers and technicians in vacuum science, and those interested in the field. This comprehensive overview of the groundbreaking work in vacuum science from 1910 to 1960 presents original biographies of the scientists and engineers at the vanguard of vacuum technology. Hall's "Electronic Ultra-High Vacuum Pump" (1932).
Market: Students and researchers in space and high-vacuum technology and materials science. This handbook was originally prepared so that workers would not have to consult a great many sources to learn what procedures and materials were used to construct tubes and other evacuated devices. Even now, as space and high-vacuum research are yielding new information daily, much of the subject matter in this seminal work, such as properties of materials, are as cogent as they were in 1964 when the book was first published.
Market: Engineers, researchers, and students in vacuum science and materials science and designers and manufacturers of vacuum electronic devices in any field where glass, ceramics, refractory metals, and joining methods are used. The republication of this widely used handbook makes available again an invaluable source of fundamental information on the construction of vacuum devices and provides a complete rundown on the properties of basic materials used in vacuum tubes (glass, ceramics, mica, carbon, graphite, iron, steel, copper, nickel, precious metals, refractory metals, and all relevant alloys). Most importantly, it offers step-by- step guidelines for basic joining techniques, including how to deal with common problems such as secondary emission and voltage breakdown. High-temperature properties are emphasized in recognition of the crucial role of vacuum devices in space technology.
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