A Comprehensive Analysis of the Future of Atomically Precise Manufacturing

arXiv - PHYS - Physics and Society Pub Date : 2024-09-02 DOI:arxiv-2409.00955

Vadym Shvydun, Justin Sato, Gabriel Bristot

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Abstract

Atomically Precise Manufacturing (APM) refers to the assembly of materials with atomic precision, representing a highly advanced technology with significant potential. However, the development of APM remains in its early stages, with applications largely confined to specialized fields and lacking cohesion within a unified discipline. The current literature on APM is often dominated by older, speculative papers that discuss its immense potential risks and benefits without sufficient grounding in the latest advancements or practical limitations that exist today. This paper aims to bridge this gap by providing a comprehensive assessment of current APM and near-APM technologies, as well as using the barriers to further progress to predict future developments. Through this analysis, we seek to establish a clearer understanding of the present state of the technology and then use these insights to predict the future trajectory of APM. By doing so, we aim to create a more grounded discourse on APM and its potential risks and benefits, while also guiding future research on the necessary regulations and safety considerations for this emerging field.

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全面分析原子精度制造的未来

原子精密制造（APM）是指以原子精度组装材料，是一项极具潜力的先进技术。然而，原子精密制造的发展仍处于早期阶段，其应用主要局限于专业领域，缺乏统一学科的凝聚力。目前有关 APM 的文献往往以较早的、推测性的论文为主，这些论文讨论的是 APM 潜在的巨大风险和益处，而没有充分立足于当今存在的最新进展或实际限制。本文旨在弥合这一差距，对当前的 APM 和近 APM 技术进行全面评估，并利用进一步发展的障碍来预测未来的发展。通过分析，我们力求对技术现状有一个清晰的认识，然后利用这些认识来预测 APM 的未来发展轨迹。通过这样做，我们的目标是就杀伤人员地雷及其潜在风险和益处展开更有依据的讨论，同时指导未来对这一新兴领域的必要法规和安全考虑因素的研究。

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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arXiv - PHYS - Physics and Society

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