研究等离子体加热和粒子加速问题,是等离子体物理和等离子体天体物理中的重要课题。
Both the heating of plasma and the acceleration of particles are important topics in plasma physics and plasma astrophysics.
多重离化态离子在原子分子物理、表面科学、等离子体物理、核物理以及天体物理中,扮演着重要角色。
The multiply charged ions (MCI) play an important role in those fields, such as atom and molecule physics, surface science, plasma physics, nuclear physics, and astrophysical.
CO分子是一种简单而又极其重要的分子,它在等离子体物理、燃烧科学以及天体物理学等领域都具有重要意义。
Co is a simple but important molecule. It plays an important role in many fields, such as plasma physics, combustion science and astrophysics.
该文对等离子体天体物理中的强湍动进行了评述并强调了等离子体的基本相互作用。
In this paper, strong turbulence in plasma astrophysics is reviewed with emphasis on fundamental plasma interactions.
负离子与原子碰撞的单电子脱附过程是普遍存在于等离子体物理、天体物理、电离层物理学中的重要过程。
The single electron detachment of negative ions in collision with atoms is known to be one of the most fundamental processes occurring in plasma physics, astrophysics, and ionospheric physics.
负离子与原子碰撞的单电子脱附过程是普遍存在于等离子体物理、天体物理、电离层物理学中的重要过程。
The single electron detachment of negative ions in collision with atoms is known to be one of the most fundamental processes occurring in plasma physics, astrophysics, and ionospheric physics.
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