Bibliography of Magnetic Materials and Tabulation of Magnetic Transition Temperatures

Bibliography of Magnetic Materials and Tabulation of Magnetic Transition Temperatures
Author: T. F. Connolly
Publisher: Springer Science & Business Media
Total Pages: 183
Release: 2012-12-06
Genre: Science
ISBN: 1468413961

This referenced compilation of magnetic transition temperatures represents (with the Addendum) papers actually received by the RMIC through May 1972 and consists of two lists (alphabetical by compounds), one for Curie and one for Neel temperatures. Where different values appeared in the literature for a single compound, all are listed with sepa rate references given for each. There is no attempt at critical evaluation, which, except for a few welt-studied and well characterized materials, would hardly be worth the effort. All that one can say for most of the compounds is that for a given material with a certain (or all too often uncertain) history of preparati'on and treatment, stoichiometry, homoge neity, and chemical or structural purity a magnetic transition was indicated at the temperature(s) listed. Only when the reasons for different values are explicitly stated in the literature do they appear as brief comments in the body of the lists. In order to include the most recent data, and to eliminate the delay involved in recomposition of the lists, an addendum is provided. While this requires the perusal of two lists rather than one, it does ensure that the compilation represents the entire RMIC collection at the moment of going to press. The 2478 references are restricted to those papers specifying a Curie or Neel temperature and do not reflect the complete magnetics literature even for the materials listed.

Bibliography of Magnetic Materials and Tabulation of Magnetic Transition Temperatures

Bibliography of Magnetic Materials and Tabulation of Magnetic Transition Temperatures
Author: Emily D. Copenhaver
Publisher: Springer
Total Pages: 200
Release: 1972-11
Genre: Science
ISBN:

This referenced compilation of magnetic transition temperatures represents (with the Addendum) papers actually received by the RMIC through May 1972 and consists of two lists (alphabetical by compounds), one for Curie and one for Neel temperatures. Where different values appeared in the literature for a single compound, all are listed with sepa rate references given for each. There is no attempt at critical evaluation, which, except for a few welt-studied and well characterized materials, would hardly be worth the effort. All that one can say for most of the compounds is that for a given material with a certain (or all too often uncertain) history of preparati'on and treatment, stoichiometry, homoge neity, and chemical or structural purity a magnetic transition was indicated at the temperature(s) listed. Only when the reasons for different values are explicitly stated in the literature do they appear as brief comments in the body of the lists. In order to include the most recent data, and to eliminate the delay involved in recomposition of the lists, an addendum is provided. While this requires the perusal of two lists rather than one, it does ensure that the compilation represents the entire RMIC collection at the moment of going to press. The 2478 references are restricted to those papers specifying a Curie or Neel temperature and do not reflect the complete magnetics literature even for the materials listed.

Advances in Cryogenic Engineering

Advances in Cryogenic Engineering
Author: K. Timmerhauso
Publisher: Springer Science & Business Media
Total Pages: 598
Release: 2013-03-14
Genre: Science
ISBN: 1461398533

The Second International Cryogenic Materials Conference (ICMC) was held in Boulder, Colorado, in conjunction with the 1977 Cryogenic Engineering Con ference (CEC). Special thanks must be given to the University of Colorado for their skillful hosting of these two conferences. Collaboration between the two con ferences has been mutually beneficial, providing the materials special ist with insight into new applications and design concepts and the cryogenic engineer with exposure to modern materials accomplishments and potentials. The Proceedings of the 1977 Cryogenic Engineering Conference are published in Volume 23 of Advances in Cryogenic Engineering. Both conferences will be held again simul taneously in Madison, Wisconsin, in August 1979. The success and growth of the two International Cryogenic Materials Con ferences have led to the formation of an ICMC Board of Directors. The board members will serve a four-year term and include: Chairman, R. P. Reed (U.S.), R. W. Boom (U.S.), A. F. Clark (U.S.), G. Hartwig (W. Germany), J. W. Morris (U.S.), M. Suenaga (U.S.), K. Tachikawa (Japan), J. Tanaka (Japan), and K. A. Yushchenko (USSR).

Laser Window and Mirror Materials

Laser Window and Mirror Materials
Author: G. C. Battle
Publisher: Springer Science & Business Media
Total Pages: 299
Release: 2012-12-06
Genre: Science
ISBN: 146848169X

Charles S. Sahagian Chief, Electromagnetic Materials Technology Branch Deputy for Electronic Technology Hanscom AFB, MA 01731 I t should not be surprising that an event as significant as the discovery of the laser has had some con comitant impact on other areas of science and technology, but the extent of the impact was grossly unpredicted. Upon perusal of this bibliography, devoted to the subject of laser window and mirror materials, it becomes very apparent that the effect of the laser on materials R&D has been enormous. Several hundred papers and reports, representing millions of dollars of effort, have been promulgated over the past decade; and as new frequencies, improved tunability, higher power, and other charac teristics are achieved, we can expect even greater demands and requirements on the materials com munity. What are some of the highlights disclosec by this bibliography with regard to work already ac complished? First, one can note the extensive investigations into developing new materials while at the same time improving old ones. Among the latter, alkali halides, for example, have essentially had a rebirth. I n the past five years more progress has been achieved in the chemical and structural perfec tion of this class of materials than in the entire preceding century. Also carried along in the surge for improved laser materials have been the alkaline earth fluorides (prime candidates for 3-to 5-J,Lm ap plications), chalcogenides, semiconductors, oxides, and others.