Foreword: Prizes of the French Academy of Sciences 2020

IF 1.3 4区 物理与天体物理 Q3 ASTRONOMY & ASTROPHYSICS
Jacques Villain
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Abstract

jvillain@infonie.fr This special issue of Comptes Rendus Physique brings together articles by three winners of prizes awarded by the Academy of Sciences in 2020. The goal of this foreword is to make them more accessible by non experts, especially students. The first article, by Philippe Bourges (“Science et innovation” CEA prize), Dalila Bounoua and Yvan Sidis, is part of the history of superconductivity, fertile in unexpected twists for 110 years. It was in 1911 that the Dutch scientist Kamerlingh Onnes, having succeeded in achieving very low temperatures which allowed him to liquefy helium, had the very natural curiosity to study the properties of various elements at these temperatures. He was surprised to find that some of them had zero electrical resistance. An electric current could thus circulate for days in a ring of mercury. What was the explanation for this perpetual motion? It was not found until 46 years later by Bardeen, Cooper and Schrie ff er, in 1957. These three scientists showed that electrons can form pairs (Cooper pairs). In a simplified description, we can say that these pairs are bosons and that at very low temperatures these bosons undergo Bose condensation, which leads to superconductivity. It is obvious that a vanishing electric resistance has a considerable technological interest, but this interest was considerably reduced by the need for very low temperatures. The critical temperature of the elements culminates at about ten kelvins in niobium and can reach higher values in compounds, but it was not expected to exceed the 23 K which correspond to Nb 3 Ge. However, in 1986 in Zürich, Müller and Bednorz discovered a family of superconductors whose critical temperature was higher, and a little later exceeded the temperature of liquid
前言:2020年法国科学院获奖情况
jvillain@infonie.fr本期《康普斯·伦杜斯生理学》特刊汇集了三位2020年科学院获奖者的文章。前言的目的是让非专家,尤其是学生更容易接触到它们。第一篇文章由Philippe Bourges(“科学与创新”CEA奖)、Dalila Bounoua和Yvan Sidis撰写,是超导历史的一部分,在110年的意外曲折中孕育。1911年,荷兰科学家Kamerlingh Onnes成功地实现了极低的温度,使他能够液化氦气,他对研究这些温度下各种元素的性质有着天生的好奇心。他惊讶地发现,其中一些电阻为零。因此,电流可以在汞环中循环数天。对这种永动机的解释是什么?直到46年后,Bardeen、Cooper和Schrie ffer于1957年才发现它。这三位科学家证明了电子可以形成对(库珀对)。在简化的描述中,我们可以说这些对是玻色子,在非常低的温度下,这些玻色子发生玻色凝聚,从而产生超导性。很明显,电阻的消失具有相当大的技术兴趣,但由于需要非常低的温度,这种兴趣大大降低了。元素在铌中的临界温度最高可达约10开尔文,在化合物中可以达到更高的值,但预计不会超过相当于Nb3Ge的23K。然而,1986年,穆勒和贝德诺茨在苏黎世发现了一个临界温度更高的超导体家族,并在稍晚的时候超过了液体的温度
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来源期刊
Comptes Rendus Physique
Comptes Rendus Physique 物理-天文与天体物理
CiteScore
2.80
自引率
0.00%
发文量
13
审稿时长
17.2 weeks
期刊介绍: The Comptes Rendus - Physique are an open acess and peer-reviewed electronic scientific journal publishing original research article. It is one of seven journals published by the Académie des sciences. Its objective is to enable researchers to quickly share their work with the international scientific community. The Comptes Rendus - Physique also publish journal articles, thematic issues and articles on the history of the Académie des sciences and its current scientific activity. From 2020 onwards, the journal''s policy is based on a diamond open access model: no fees are charged to authors to publish or to readers to access articles. Thus, articles are accessible immediately, free of charge and permanently after publication. The Comptes Rendus - Physique (8 issues per year) cover all fields of physics and astrophysics and propose dossiers. Thanks to this formula, readers of physics and astrophysics will find, in each issue, the presentation of a subject in particularly rapid development. The authors are chosen from among the most active researchers in the field and each file is coordinated by a guest editor, ensuring that the most recent and significant results are taken into account. In order to preserve the historical purpose of the Comptes Rendus, these issues also leave room for the usual notes and clarifications. The articles are written mainly in English.
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