Reminiscences About a Chemistry Nobel Prize Won with Metallurgy: Comments on D. Shechtman and I. A. Blech; Metall. Trans

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DOI: 10.1007/s11661-012-1323-1 The Minerals, Metals & Materials Society and ASM International 2012

A paper, ‘‘The Microstructure of Rapidly Solidiﬁed Al6Mn,’’[1] was submitted for publication in October 1984 by D. Shechtman and I. Blech to the Metallurgical Transactions A (now Metallurgical and Materials Transactions) after having been rejected by The Journal of Applied Physics (JAP) in the summer of 1984. A second paper, ‘‘Metallic Phase with Long-Range Orientational Order and No Translational Symmetry,’’[2] was submitted within a week by Dan Shechtman and coworkers to the Physical Review Letters (PRL). Both papers announced the creation by rapid solidiﬁcation, at the National Bureau of Standards (NBS)—now the National Institute of Standards and Technology (NIST)— of a sharply diﬀracting metallic Al-Mn solid phase that, because of its icosahedral symmetry, could not be periodic. In 2011, Dan Shechtman was awarded the Nobel Prize in Chemistry for this discovery. The Award cites him for ‘‘changing the way chemists looked at the solid state.’’[3] We, the three co-authors of these papers, are pleased to have been invited by the editor of Metallurgical and Materials Transactions to recount our participation in this work and to summarize its signiﬁcance. The two papers diﬀer in several ways. The Physical Review Letters paper was conﬁned to the compelling case made by the NBS experiments alone that challenged several prevailing paradigms of crystallography. The Metallurgical Transactions A paper had, in addition, a model created by Ilan Blech, then at the Technion, demonstrating that an icosahedral electron diﬀraction pattern could result from a special sort of an icosahedral glass in which the translational symmetry is broken while retaining icosahedral orientational symmetry. This model was referred to, but left out of the Physical Review Letters, for three main reasons: (1) The experimental case by itself was strong and suﬃcient to force a change in thinking, (2) the model was open to ILAN A. BLECH, 25551 Burke Lane, Los Altos Hills, CA 94022. JOHN W. CAHN, Aﬃliate Professor, UW Physics, Senior Fellow Emeritus, is with the National Institute of Standards & Technology, Gaithersburg, MD 20899. Contact e-mail: [email protected] DENIS GRATIAS, Research Director, is with the Laboratoire d’E´tudes des Microstructures CNRS ONERA, 92322 Chaˆtillon, France. Article published online July 31, 2012 METALLURGICAL AND MATERIALS TRANSACTIONS A

criticism and might distract attention from the experiments, and (3) Physical Review Letters has a page limitation. According to the then-prevailing crystallographic theories, crystals with icosahedral symmetry could not exist. Within a short time of publication, the existence of many others with forbidden symmetries were reported. Their undeniable existence and properties formed a classic example of the truism that experiments are unsurpassed at disproving theories. Nothing else was needed to force a change in the prevailing theories. The discovery challenged two basic principles of crystall

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Reminiscences About a Chemistry Nobel Prize Won with Metallurgy: Comments on D. Shechtman and I. A. Blech; Metall. Trans

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