Whole Pattern Fitting, Rietveld Analysis, and Calculated Diffraction Patterns. Quantitative Phase Analysis by XRay Diffraction (XRD). Thin Film and Surface Characterization by XRD. Lattice Defects and XRay Topography. Texture Analysis by XRD. XRD Instrumentation, Techniques, and Reference Materials. Stress Determination by Diffraction Methods. XRD Profile Fitting, Crystallite Size and Strain Determination. XRD Applications: Detection Limits, Superconductors, Organics, Minerals. Mathematical Methods in XRay Spectrometry (XRS). Thin Film and Surface Characterization by XRS and XPS. Total Reflection XRS. XRS Techniques and Instrumentation. XRS Applications. XRay Imaging and Tomography. 161 articles. Index.

The 37th Annual Denver Conference on Applications of X-Ray Analysis was held August 1-5, 1988, at the Sheraton Steamboat Resort and Conference Center, Steamboat Springs, Colorado. As usual, alternating with x-ray diffraction, the emphasis this year was x-ray fluorescence, but as has been the pattern for several occasions over the last few years, the Plenary Session did not deal with that subject, specifically. In an attempt to introduce the audience to one of the new developments in x-ray analysis, the title of the session was "High Brilliance Sources/Applications," and dealt exclusively with synchrotron radiation, a topic which has made a very large impact on the x-ray community over the last decade. As the organizer and co-chairman of the Plenary Session (with Paul Predecki), it is my responsibility to report on that session here. The Conference had the privilege of obtaining the services of some of the preeminent practitioners of research using this remarkable x-ray source; they presented the audience with unusually lucid descriptions of the work which has been accomplished in the development and application of the continuous, high intensity, tunable, polarized and collimated x-rays available from no facility other than these specialized storage rings. The opening lecture (and I use that term intentionally) was an enthusiastic description of "What is Synchrotron Radiation?" by Professor Boris Batterman of Cornell University and the Cornell High Energy Synchrotron Sourc(! (CHESS).

The 43rd Annual Conference on Applications ofX-ray Analysis was held August 1-5, 1994, at the Sheraton Steamboat Resort & Conference Center in Steamboat Springs, Colorado. The Denver X-Ray Conference has evolved from the 1950's into an international forum for the interaction of scientists, engineers and technologists interested in the use of x-rays in materials characterization. It has not only acted as a venue but has both stimulated and nurtured many of the principal developments in this field over the years. The major changes that have been occurring on the national and international scene as a result of the end of the cold war have dramatic-ally affected the way the materials community does business. The removal of defense priorities and development funds from most new materials initiatives has stimulated the char acterization communities to look to increasing the speed of their methods. This is being accom plished via the development of very fast dynamic characterization procedures which can rapidly and intelligently monitor and optimize the formation of a desired microstructure. The develop ment of intelligent characterization procedures applied in real-time during the manufacturing process can lead to the ability to design desired microstructures. Another potential advantage to this approach is its ability to characterize the actual amount of material which goes into a final product; permitting a rapid transition from R&D to manufacturing by avoiding the prob lems associated with scale-up.

The 37th Annual Denver Conference on Applications of X-Ray Analysis was held August 1-5, 1988, at the Sheraton Steamboat Resort and Conference Center, Steamboat Springs, Colorado. As usual, alternating with x-ray diffraction, the emphasis this year was x-ray fluorescence, but as has been the pattern for several occasions over the last few years, the Plenary Session did not deal with that subject, specifically. In an attempt to introduce the audience to one of the new developments in x-ray analysis, the title of the session was "High Brilliance Sources/Applications," and dealt exclusively with synchrotron radiation, a topic which has made a very large impact on the x-ray community over the last decade. As the organizer and co-chairman of the Plenary Session (with Paul Predecki), it is my responsibility to report on that session here. The Conference had the privilege of obtaining the services of some of the preeminent practitioners of research using this remarkable x-ray source; they presented the audience with unusually lucid descriptions of the work which has been accomplished in the development and application of the continuous, high intensity, tunable, polarized and collimated x-rays available from no facility other than these specialized storage rings. The opening lecture (and I use that term intentionally) was an enthusiastic description of "What is Synchrotron Radiation?" by Professor Boris Batterman of Cornell University and the Cornell High Energy Synchrotron Sourc(! (CHESS).

The 39th Denver Conference on Applications of X-ray Analysis was held July 31-August 4, 1995, at the Sheraton Hotel, Colorado Springs, Colorado. The year 1995 was a special year for the X-ray analysis community, since it represented the 100th anniversary ofthe discovery ofX-rays by Wilhelm Roentgen. In commemoration of this event, the Plenary Session of the conference was entitled "THE ROENTGEN COMMEMORATIVE SESSION:1895-1995, "100 YEARS OF PROGRESS IN X-RA Y SCIENCE AND APPLICATIONS". It is interesting to note that while we celebrate 100 years ofthe use ofX-ray techniques in general, and about 80 years ofX-ray diffraction and spectroscopy in particular, the Denver X-ray Conference has been in place for about half ofthat time period! Like the X-ray methods it represents, the Denver Conference on Applications ofX-ray Analysis has grown and matured, has survived the rigors oftime, and today, provides the worlds' best annual forum for the exchange of experiences and developments in the various fields ofX-ray analysis. Imagine, when the Denver Conference started in 1951, there were no personal computer- in fact, there were no computers, period! There was no SEM, no microprobe, there were no Si(Li) detectors, no transistors, no synchrotrons, Hugo Rietveld was a child, and many members who regularly attend Denver Meetings today, weren't even born yet! As I write this foreword, a copy of volurne 1 of Advances in X-ray Analysis lays in front of me on my desk.

89 articles organized under the following section heads: Impact of Computers on Xray Analysis. Applications of Whole Pattern Fitting: Structure Determination, Phase Identification, Lattice Parameters. Search/Match Methods, Phase Identification. Diffraction from Single Crystals and Epitaxial Films. Xray Characterization of Films and Surface Layers. Strain and Stress Determination, Xray Fractography, Diffraction Peak Broadening Analysis. Advances in Detectors and Counting Electronics. XRD Techniques and Instrumentation, Nonambient Applications, Texture, other Applications. Xray Optics, Monochromators and Synthetic Multilayers. Total Reflection XRF Applications and Instrumentation, other XRF Techniques and Instrumentation. Mathematical Techniques in Xray Spectrometry. Geological and other Applications of XRS. Index.

This work covers important aspects of X-ray spectrometry, from basic principles to the selection of instrument parameters and sample preparation. This edition explicates the use of combined X-ray fluorescence and X-ray diffraction data, and features new applications in environmental studies, forensic science, archeometry and the analysis of metals and alloys, minerals and ore, ceramic materials, catalysts and trace metals.;This work is intended for spectroscopists, analytical chemists, materials scientists, experimental physicists, mineralogists, biologists, geologists and graduate-level students in these disciplines.

The 37th Annual Denver Conference on Applications of X-Ray Analysis was held August 1-5, 1988, at the Sheraton Steamboat Resort and Conference Center, Steamboat Springs, Colorado. As usual, alternating with x-ray diffraction, the emphasis this year was x-ray fluorescence, but as has been the pattern for several occasions over the last few years, the Plenary Session did not deal with that subject, specifically. In an attempt to introduce the audience to one of the new developments in x-ray analysis, the title of the session was "High Brilliance Sources/Applications," and dealt exclusively with synchrotron radiation, a topic which has made a very large impact on the x-ray community over the last decade. As the organizer and co-chairman of the Plenary Session (with Paul Predecki), it is my responsibility to report on that session here. The Conference had the privilege of obtaining the services of some of the preeminent practitioners of research using this remarkable x-ray source; they presented the audience with unusually lucid descriptions of the work which has been accomplished in the development and application of the continuous, high intensity, tunable, polarized and collimated x-rays available from no facility other than these specialized storage rings. The opening lecture (and I use that term intentionally) was an enthusiastic description of "What is Synchrotron Radiation?" by Professor Boris Batterman of Cornell University and the Cornell High Energy Synchrotron Sourc(! (CHESS).

The 41st Annual Conference on Applications of X-Ray Analysis was held August 3-7, 1992, at the Sheraton Colorado Springs Hotel, Colorado Springs, Colorado. The Conference is recognized to be a major event in the x-ray analysis field, bringing together scientists and engineers from around the world to discuss the state of the art in x-ray applications as well as indications for further developments. In recent years, one of the most exciting and important developments in the x-ray field has been the applications of grazing-incidence x-rays for surface and thin-film analysis. To introduce the conference attendees to these "leading-edge" developments, the topic for the Plenary Session was "Grazing-Incidence X Ray Characterization of Materials. " The Conference had the privilege of inviting leading experts in the field of x-ray thin film analysis to deliver lectures at the Plenary Session. Dr. D. K. Bowen, University of Warwick, U. K., opened the session with a lecture on "Grazing Incidence X-Ray Scattering from Thin Films. " He reviewed and compared grazing incidence diffraction, fluorescence and reflectivity techniques. Results of experimental and theoretical analysis were also discussed. Dr. B. Lenge1er, Forchungszentrum Ju1ich, Germany, followed with a lecture on "Grazing Incidence Diffuse X-Ray Scattering from Thin Films. " He concentrated on the use of newly developed "off-specular" reflectivity techniques for the determination of vertical roughness, lateral correlation length and contour exponent on surfaces."

The 41st Annual Conference on Applications of X-Ray Analysis was held August 2-6, 1993, at the Sheraton Denver Technical Center Hotel, Denver, Colorado. From its modest beginnings in the early 1950's, the Denver X-Ray Conference has grown to become a major venue in the national scientific calendar, with an ever-growing overseas participation. The 1993 Conference was the latest of these annual gatherings of x-ray analysts, who come together to discuss topics of current interest in diffraction and fluorescence. As the size and flavor of the Conference has changed over the years, so too have the methods and techniques of x-ray materials analysis matured. Science is advanced by the creativity of a few and the mistakes of many. It is important, therefore, that from time to time we sit back and reflect on how we got where we are, and where we are likely to go next. There has been no greater impact on the field than the introduction of the digital computer, and the Plenary Session of the 1993 Conference, "Impact of the PC in X-Ray Analysis," was designed to reflect on the role of the personal computer in the metamorphosis of x-ray instrumentation and techniques. Since the personal computer is a creation of non-x-ray specialists, we, as a group, have simply attached ourselves to the coat-tails of experts and developers in the PC field and taken advantage of new computer systems as and when they were developed.

Winner of the 1997 Nobel Prize for Literature, Dario Fo is one of the world's most important contemporary playwrights, forging subversive comedy, clowning, unusual linguistic experimentation, and brilliant playwriting into a comedy of complete originality. In a first-person monologue that bends and mutates language and historical fact, Johan Padan and the Discovery of the Americas is a brilliant, vividly imagined retelling of Christopher Columbus's voyage to America. Told by a last-minute conscript assigned to clean the shipboard pig stalls, who goes on to be adopted by a tribe of Indians and help them fight conquistadors, it posits a riotous alternate history in which the dynamics between native and white, male and female, history and comedy are never what they seem.

Winner of the Nobel Prize for Literature

In the words of his translator, Ron Jenkins: "The Nobel committee's decision to honor Fo as a master of literature is a historic tribute to the theatre, which is still viewed by many as literature's bastard child; it is also the first time that the Nobel for the literary arts has been awarded to an actor. This courageous and controversial choice indirectly expands the modern definition of literature to include the power of the spoken word."

Volume One includes:
"We Won't Pay! We Won't Pay!
Elizabeth
Archangels Don't Play Pinball
About Face"

"Mistero Buffo" is Dario Fo's one-man tour de force, in which he creates his own subversive version of Biblical stories. Infused with the rhythmic drive of a jazz improvisation, the immediacy of a newspaper headline, and the epic scope of a historical novel, Fo and his wife/collaborator Franca Rame have performed "Mistero Buffo" throughout the world to over 10 million people.

One of the major theatrical artists of the twentieth century, Italy's Dario Fo was awarded the 1997 Nobel Prize in Literature.

Ron Jenkins' translations of Dario Fo have been performed across the country. He is the theater department chair at Wesleyan University.

Winner of the Nobel Prize for Literature, Dario Fo is one of the world's most important contemporary playwrights, forging subversive wit and unusual linguistic experimentation into a comedy of complete originality. The Peasants' Bible is a collection of five monologues drawn from Italian folklore but filtered through Fo's delightfully singular lens-for example, an Adam and Eve who are passionately entwined like peas in a pod; a race between two classes of men struggling for power that resembles the legend of the Hare and the Tortoise-to form a Bible of the common man. In The Story of the Tiger, we find a Fourth Army soldier injured fighting Chiang Kai-shek's army, saved from starvation by being suckled by an enormous tiger, who then comes back to defeat Kai-shek by using model tigers in combat. Together the pieces are an extraordinary addition to Fo's body of work.