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A Course in Luminescence Measurements and Analyses for Radiation Dosimetry. Stephen W. S. McKeeverЧитать онлайн книгу.

A Course in Luminescence Measurements and Analyses for Radiation Dosimetry - Stephen W. S. McKeever


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certain chapters and sections of the text, correcting mistakes, and making very positive suggestions. Also acknowledged are those who provided example data sets for use on the accompanying web site for reader analysis. Specific thanks go to Adrie Bos, Mayank Jain, Vasilis Pagonis, Nigel Poolton, Peter Townsend, Sergey Sholom, and Eduardo Yukihara, for their unfailing assistance in reading parts of the text and providing vital feedback to the author. Any remaining errors are the author’s own. Special thanks, however, go to my friend and long-time colleague, Sergey Sholom, for not only reading multiple sections of the book, but also in answering my persistent calls for original data for inclusion in the book and for uploading to the web site for use in the Exercises and for analysis by the readers. I will remain eternally grateful.

      Further thanks are due to the many contributors of data and figures for use in the book, including, again, Adrie Bos, Vasilis Pagonis, Nigel Poolton, and Sergey Sholom, plus Mark Akselrod, Ramona Gaza, Guerda Massilon, Kahli Remy, and Hannes Stadmann. I also thank my many collaborators throughout my career from whom I have learned so much and who have guided me on my own stumbling path through the topic. Thanks are also due to the editorial staff at Wiley for their professional guidance and assistance. Finally, I thank my many brilliant students who over the years have also taught me so much at the same time as I, hopefully, have taught them. Teaching is a two-way process, and I have loved every minute of it. I hope this book does them all justice.

      Reference to commercial products does not imply or represent endorsement of those products on the part of the author. It is noted that the author’s research has been funded at various points in his career by Landauer Inc. (USA) and Chiyoda Technol Corporation (Japan).

      This book is accompanied by a companion website.

       www.wiley.com/go/mckeever/luminescence-measurements

      This website includes:

       Exercises

       Figures

       Notes

      When … simulation and approximation yield similar results, the validity of the conclusions is strengthened.

      I consider then, that generally speaking, to render a reason of an effect or Phaenomenon, is to deduce it from something else in Nature more known than it self, and that consequently there may be divers kinds of Degrees of Explication of the same thing.

      – R. Boyle 1669

      1.1 How Did We Get Here?

      Luminescence, the eerie glow of light emitted by many physical and biological substances, is familiar to us all. The bright speck of a firefly, the luminous glow from seawater in the evening, the glow of a watch dial in the dark – all are examples of luminescence phenomena that are familiar to most of us. Familiarity and understanding are not synonymous, however. Indeed, an understanding of the various luminescence phenomena has a very long genesis and over the centuries there have been several “divers kinds of Degrees of Explication”. Luminescence has had, and continues to have, practical uses in both every-day and in more esoteric applications. Computer screens, electronic indicators, lighting, lasers, and many, many other examples are indications that the field of luminescence is very broad and potentially very useful.

      Boyle’s 1664 account of luminescence from diamond is generally accepted as the first scientific description of the phenomenon of thermoluminescence (TL). Boyle described various ways of heating the diamond to induce from it the emission of light. It is not clear, however, how Boyle energized the diamond in the first place. We now know that the TL phenomenon requires that the material must first absorb energy from an external energy source. The energy thus stored is then released by the application of a second source of energy (heat). As the initial energy is released, some of it is emitted in the form of visible light (thermoluminescence). Without that first energy storage step, no TL can be induced. Boyle may or may not have known that the process he was observing was, in fact, a two-step procedure, but he was vague on how he energized the diamond in his possession; readers are left to speculate how this may have been achieved. Possibilities include natural radioactivity or light, but perhaps the most likely source was physical stimulation (rubbing, scratching, etc.) producing what we now call tribo-thermoluminescence (“tribo-” from the Greek “trī̀bein,” meaning “to rub”). In any case, once heated to release the TL, the material would have to be energized again and energy stored a second time before the TL phenomenon could be seen again during heating.

      We may never know in sufficient detail how Boyle treated his diamond to be able to answer this question with certainty – and perhaps we should be satisfied with leaving it as an intriguing mystery. For our purposes here, we can be satisfied that the phenomenon that we discuss in this book was first reported in such vivid and expressive terms as long ago as the mid-seventeenth century, and by such a luminary as Robert Boyle.

      McKeever (1985) traces several pre-twentieth century published descriptions of luminescence stimulated by heating and indicates that the term “thermoluminescence” can probably be attributed to Eilhardt Wiedemann (Wiedemann 1889) in his work on the luminescence properties of a wide variety of materials. Following Wiedemann’s work, Wiedemann and Schmidt (1895) studied TL from an extensive series of materials following irradiation with electron beams, while Trowbridge and Burbank (1898), likewise, studied TL of fluorite following excitation by several different energy sources, including x-irradiation. These two early papers are examples where we can see the beginnings of the use of TL in radiation detection since, in each case, a source of radiation was used to provide the initial absorption of energy necessary for ultimate TL production. It is not surprising, therefore, to see the study of TL proceeding alongside the examination of radiation itself, with seminal works by Marie Curie and Ernest Rutherford, among others, including descriptions of thermoluminescence from minerals (Curie 1904; Rutherford 1913). Examinations of the color of the emitted light were also beginning around this time through studies of the spectra of the TL from various minerals (Morse 1905).


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