Persistent mysteries of jet engines, formation, propagation, and particle acceleration: Have they been addressed experimentally?

IF 11.7 2区 物理与天体物理 Q1 ASTRONOMY & ASTROPHYSICS New Astronomy Reviews Pub Date : 2022-12-01 DOI:10.1016/j.newar.2022.101661
Eric G. Blackman , Sergey V. Lebedev
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引用次数: 3

Abstract

The physics of astrophysical jets can be divided into three regimes: (i) engine and launch (ii) propagation and collimation, (iii) dissipation and particle acceleration. Since astrophysical jets comprise a huge range of scales and phenomena, practicality dictates that most studies of jets intentionally or inadvertently focus on one of these regimes, and even therein, one body of work may be simply boundary condition for another. We first discuss long standing persistent mysteries that pertain the physics of each of these regimes, independent of the method used to study them. This discussion makes contact with frontiers of plasma astrophysics more generally. While observations theory, and simulations, and have long been the main tools of the trade, what about laboratory experiments? Jet related experiments have offered controlled studies of specific principles, physical processes, and benchmarks for numerical and theoretical calculations. We discuss what has been accomplished on these fronts. Although experiments have indeed helped us to understand certain processes, proof of principle concepts, and benchmarked codes, they have yet to solved an astrophysical jet mystery on their own. A challenge is that experimental tools used for jet-related experiments so far, are typically not machines originally designed for that purpose, or designed with specific astrophysical mysteries in mind. This presents an opportunity for a different way of thinking about the development of future platforms: start with the astrophysical mystery and build an experiment to address it.

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喷气发动机、形成、传播和粒子加速的持久谜团:它们在实验上得到解决了吗?
天体物理射流的物理特性可分为三个方面:(i)发动机和发射;(ii)传播和准直;(iii)耗散和粒子加速。由于天体物理喷流包含了巨大的尺度和现象范围,实用性决定了大多数关于喷流的研究有意或无意地集中在其中一个机制上,甚至在其中,一个工作主体可能只是另一个工作主体的边界条件。我们首先讨论与每一种制度的物理有关的长期存在的谜团,独立于研究它们的方法。这一讨论使人们更广泛地接触到等离子体天体物理学的前沿。长期以来,观测理论和模拟一直是这一行业的主要工具,那么实验室实验呢?射流相关实验为具体原理、物理过程以及数值和理论计算提供了对照研究。我们讨论在这些方面所取得的成就。虽然实验确实帮助我们理解了某些过程、原理概念的证明和基准代码,但它们还没有自己解决天体物理射流之谜。一个挑战是,迄今为止用于喷气相关实验的实验工具,通常不是最初为该目的而设计的机器,也不是为了特定的天体物理奥秘而设计的。这提供了一个思考未来平台发展的不同方式的机会:从天体物理之谜开始,建立一个实验来解决它。
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来源期刊
New Astronomy Reviews
New Astronomy Reviews 地学天文-天文与天体物理
CiteScore
18.60
自引率
1.70%
发文量
7
审稿时长
11.3 weeks
期刊介绍: New Astronomy Reviews publishes review articles in all fields of astronomy and astrophysics: theoretical, observational and instrumental. This international review journal is written for a broad audience of professional astronomers and astrophysicists. The journal covers solar physics, planetary systems, stellar, galactic and extra-galactic astronomy and astrophysics, as well as cosmology. New Astronomy Reviews is also open for proposals covering interdisciplinary and emerging topics such as astrobiology, astroparticle physics, and astrochemistry.
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