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Research Magnet Technology: Forty Years of Creating High Magnetic Fields

為了解決 ultra的問題，作者Jones, Harry (EDT) 這樣論述：

Research Magnet Technology presents an overview of the technologies necessary to provide high magnetic fields as a research tool mainly, but by no means exclusively, for condensed matter physics. Taken from the perspective of the author's career spanning four decades, it contains a historical com

ponent while at the same time deals with state-of-the-art and future developments. Several technologies are described: classical electrical engineering (copper/water-cooled multi-megawatt), superconducting magnets (both low and high temperature), hybrid magnets, non-destructive pulsed magnets, and d

estructive non-continuous techniques for ultra-high fields. The world's dedicated magnet laboratories are described parallel to the involvement of the industry. Examples of major scientific advances that have used high fields will be explored and future applications indicated. Moreover, the many dis

tinguished and colorful scientists and engineers who have made an impression on the author over the last 40 years are featured anecdotally where appropriate.Unlike most books on magnet technology and related topics that are either rigorous textbooks with a heavy mathematical content or popular works

which treat the magnet as an interesting curiosity, this book adopts a unique approach by balancing the two extremes.

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Physics of Binary Star Evolution: From Stars to X-Ray Binaries and Gravitational Wave Sources

為了解決 ultra的問題，作者Tauris, Thomas M.,Van Den Heuvel, Edward P. J. 這樣論述：

A graduate-level textbook on the astrophysics of binary star systems and their evolutionPhysics of Binary Star Evolution is an up-to-date textbook on the astrophysics and evolution of binary star systems. Theoretical astrophysicists Thomas Tauris and Edward van den Heuvel cover a wide range of ph

enomena and processes, including mass transfer and ejection, common envelopes, novae and supernovae, X-ray binaries, millisecond radio pulsars, and gravitational wave (GW) sources, and their links to stellar evolution. The authors walk through the observed properties and evolution of different types

of binaries, with special emphasis on those containing compact objects (neutron stars, black holes, and white dwarfs). Attention is given to the formation mechanisms of GW sources--merging double neutron stars and black holes as well as ultra-compact GW binaries hosting white dwarfs--and to the pro

genitors of these sources and how they are observed with radio telescopes, X-ray satellites, and GW detectors (LIGO, Virgo, KAGRA, Einstein Telescope, Cosmic Explorer, and LISA). Supported by illustrations, equations, and exercises, Physics of Binary Star Evolution combines theory and observations t

o guide readers through the wonders of a field that will play a central role in modern astrophysics for decades to come.465 equations, 47 tables, and 350+ figuresMore than 80 exercises (analytical, numerical, and computational)Over 2,500 extensive, up-to-date references

無橋式功因修正轉換器研製

為了解決 ultra的問題，作者黃禎岳 這樣論述：

本論文目的在研製一無橋式功因修正轉換器，硬體電路以圖騰柱型功率因數修正電路為核心，利用外迴路電壓感測電路與內迴路電流感測電路完成本控制。本研究採用平均電流控制法來實現功率因數修正功能。平均電流控制法以雙迴圈PI控制器來實現，由輸入電壓極性與波形角度傳給雙迴圈PI控制系統運算，外迴圈PI控制器控制電壓，內迴圈PI控制器控制電流，軟體是以瑞薩電子公司生產的R5F562TAADFP數位訊號處理器實現，經實測結果顯示功率因數可達0.98以上，總諧波失真率最大為11.644%。證明本控制器可達功率因數修正的效果。