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Memorial Tributes: Volume 21 (2017)

Chapter: JAMES W. MAYER

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Suggested Citation:"JAMES W. MAYER." National Academy of Engineering. 2017. Memorial Tributes: Volume 21. Washington, DC: The National Academies Press. doi: 10.17226/24773.
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Suggested Citation:"JAMES W. MAYER." National Academy of Engineering. 2017. Memorial Tributes: Volume 21. Washington, DC: The National Academies Press. doi: 10.17226/24773.
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JAMES W. MAYER

1930–2013

Elected in 1984

“For original contributions to ion implantation, Rutherford backscattering spectrometry, and other major aspects of solid-state engineering research and education.”

BY THOMAS E. EVERHART

JAMES WALTER MAYER excelled as a scientist, engineer, and mentor, and as a family man and friend. He was born April 24, 1930, in Chicago and passed away June 14, 2013, in the presence of family in Kailua-Kona, Hawaii, where he and his wife had retired. He was 83.

After his PhD degree in physics from Purdue University and then Army service, he joined the Hughes Research Laboratories. Subsequently, he started his career in academia as a professor of electrical engineering at the California Institute of Technology in 1967, where in addition to research and teaching he became Master of Student Houses.

From Caltech he moved in 1980 to Cornell University’s College of Engineering as the Francis Norwood Bard Professor of Materials Engineering before becoming director of the Microscience and Technology Program in 1989. In 1992 he accepted the position of director of the Center for Solid State Science at Arizona State University (ASU), where he went on to become a Regents’ Professor in 1994 and Galvin Professor of Science and Engineering in 1997. During his career he authored or coauthored more than 750 papers, 12 books, and 12 patents.

___________________

A more detailed memorial is available in the Materials Research Society’s MRS Bulletin, October 2013, vol. 38, no. 10, pp. 774–775.

Suggested Citation:"JAMES W. MAYER." National Academy of Engineering. 2017. Memorial Tributes: Volume 21. Washington, DC: The National Academies Press. doi: 10.17226/24773.
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He made several key scientific and technological advances. In the 1950s his work was essential to the development of semiconductor detectors, used for measuring the energy of energetic particles and ionizing radiation. He helped develop Rutherford backscattering spectrometry (RBS) into a major analytic tool and used it to analyze many aspects of semiconductor growth, disorder, and several other properties of materials growth. He was a key contributor to the development of ion implantation to dope semiconductors, discovering methods of annealing that removed the disorder created by the implantation and making that technique a practical fabrication tool for integrated circuits.

In recognition of his achievements and contributions to the field, he was selected for the Materials Research Society’s Von Hippel Award in 1981, for having done “research on implantation that identified the damage and the epitaxial regrowth phenomena crucial to the semiconductor industry, and pioneered the use of ion beam techniques for materials analysis.” He was elected a member of the National Academy of Engineering, and he was a fellow of the American Physical Society and the Institute of Electrical and Electronics Engineers.

Jim Mayer was an excellent teacher of both undergraduate and graduate students, often returning to his lab at night to work with the latter. In addition to more than 40 graduate students, he mentored visitors and postdocs, most of whom became lifelong friends. And he established the Kaiserliche Königliche Böhmische Physical Society to encourage information exchange between scientists and engineers involved in such research.

Among his various interests (and publications) was analysis of paint pigments and ink, applying science to art. His expertise was such that he was invited to lecture at the Louvre. He also developed a course at ASU on “Patterns in Nature,” which later became a statewide online course, complete with a laboratory on wheels that could be used by K–12 students around the state. While at Cornell, he helped his wife start an elementary school that was quite successful.

Suggested Citation:"JAMES W. MAYER." National Academy of Engineering. 2017. Memorial Tributes: Volume 21. Washington, DC: The National Academies Press. doi: 10.17226/24773.
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Jim Mayer leaves behind his wife, Betty (née Billmire), four children, seven grandchildren, and four great-grandchildren, as well as many colleagues and students who are better scientists, engineers, and human beings because they knew him and were influenced by him.

Suggested Citation:"JAMES W. MAYER." National Academy of Engineering. 2017. Memorial Tributes: Volume 21. Washington, DC: The National Academies Press. doi: 10.17226/24773.
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Suggested Citation:"JAMES W. MAYER." National Academy of Engineering. 2017. Memorial Tributes: Volume 21. Washington, DC: The National Academies Press. doi: 10.17226/24773.
×
Page 245
Suggested Citation:"JAMES W. MAYER." National Academy of Engineering. 2017. Memorial Tributes: Volume 21. Washington, DC: The National Academies Press. doi: 10.17226/24773.
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Page 246
Suggested Citation:"JAMES W. MAYER." National Academy of Engineering. 2017. Memorial Tributes: Volume 21. Washington, DC: The National Academies Press. doi: 10.17226/24773.
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This is the 21st Volume in the series Memorial Tributes compiled by the National Academy of Engineering as a personal remembrance of the lives and outstanding achievements of its members and foreign associates. These volumes are intended to stand as an enduring record of the many contributions of engineers and engineering to the benefit of humankind. In most cases, the authors of the tributes are contemporaries or colleagues who had personal knowledge of the interests and the engineering accomplishments of the deceased. Through its members and foreign associates, the Academy carries out the responsibilities for which it was established in 1964.

Under the charter of the National Academy of Sciences, the National Academy of Engineering was formed as a parallel organization of outstanding engineers. Members are elected on the basis of significant contributions to engineering theory and practice and to the literature of engineering or on the basis of demonstrated unusual accomplishments in the pioneering of new and developing fields of technology. The National Academies share a responsibility to advise the federal government on matters of science and technology. The expertise and credibility that the National Academy of Engineering brings to that task stem directly from the abilities, interests, and achievements of our members and foreign associates, our colleagues and friends, whose special gifts we remember in this book.

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