The breakthrough of a quantum chemist by classical dynamics: Martin Karplus and the birth of computer simulations of chemical reactions

IF 0.8 4区 物理与天体物理 Q2 HISTORY & PHILOSOPHY OF SCIENCE
Daniele Macuglia, Benoît Roux, Giovanni Ciccotti
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引用次数: 1

Abstract

1964–1965 was an early, crucial period in Martin Karplus’ research—a time when, rather unexpectedly, he approached the problem of reactive collisions using a quasiclassical approximation with the aid of computer technologies. This marked a substantial departure from the quantum-chemical studies of nuclear magnetic resonance that had, until then, dominated his work. The historical perspective outlined by George Schatz, as well Karplus’ own biography, partly frames the contours of this remarkable period in the history of theoretical chemistry. Yet, the available historical literature is not sufficiently complete to allow us to understand Karplus’ transition from nuclear magnetic resonance to reaction dynamics. In this article, we discuss the intellectual ground on which Karplus operated around 1964, further commenting on the relevance of his quantum and quasiclassical studies and pondering how Karplus’ approach eventually led to his interest in the simulation of complex biomolecules.

经典动力学中量子化学家的突破:马丁·卡普拉斯和计算机模拟化学反应的诞生
1964-1965年是马丁·卡普拉斯研究的早期关键时期——在这段时间里,他出人意料地借助计算机技术,利用准经典近似方法研究了反应性碰撞问题。在此之前,核磁共振的量子化学研究一直主导着他的工作。George Schatz概述的历史视角,以及Karplus自己的传记,部分地勾勒出了理论化学历史上这一非凡时期的轮廓。然而,现有的历史文献还不够完整,不足以让我们理解Karplus从核磁共振到反应动力学的转变。在这篇文章中,我们讨论了Karplus在1964年前后的理论基础,进一步评论了他的量子和准经典研究的相关性,并思考了Karplus的方法是如何最终导致他对复杂生物分子模拟的兴趣的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
The European Physical Journal H
The European Physical Journal H HISTORY & PHILOSOPHY OF SCIENCE-PHYSICS, MULTIDISCIPLINARY
CiteScore
1.60
自引率
10.00%
发文量
13
审稿时长
>12 weeks
期刊介绍: The purpose of this journal is to catalyse, foster, and disseminate an awareness and understanding of the historical development of ideas in contemporary physics, and more generally, ideas about how Nature works. The scope explicitly includes: - Contributions addressing the history of physics and of physical ideas and concepts, the interplay of physics and mathematics as well as the natural sciences, and the history and philosophy of sciences, together with discussions of experimental ideas and designs - inasmuch as they clearly relate, and preferably add, to the understanding of modern physics. - Annotated and/or contextual translations of relevant foreign-language texts. - Careful characterisations of old and/or abandoned ideas including past mistakes and false leads, thereby helping working physicists to assess how compelling contemporary ideas may turn out to be in future, i.e. with hindsight.
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