Simulated Galactic(模拟银河)研究综述
Simulated Galactic 模拟银河 - Most of the observed and simulated galactic bars are symmetric in the face-on view. [1] Parameters tested were survival to: (i) long-term storage at ambient conditions, (ii) simulated Galactic Cosmic Radiation and Solar Particle Event radiation provided by the NASA Space Radiation Laboratory, (iii) exposure to simulated gastric fluid, and (iv) exposure to simulated intestinal fluid. [2] However, we demonstrate that surveys at these extremely high radio frequencies are capable of discovering new pulsars, analyse their sensitivity limits with respect to a simulated Galactic Centre pulsar population, and discuss the major challenges and how to improve similar surveys in the future. [3] Fortunately, cosmological hydrodynamical simulations provide an excellent statistical population of galaxies, letting us quantify how simulated galactic bars evolve within dark matter haloes. [4] Given the clear gap of knowledge regarding such exposures, we assessed the effects acute and chronic exposure to a mixed field of neutrons and photons and single or fractionated simulated galactic cosmic ray exposure (GCRsim) on behavioral and cognitive performance in mice. [5]大多数观测和模拟的银河棒在正面视图中都是对称的。 [1] 测试的参数是:(i) 在环境条件下长期储存,(ii) NASA 空间辐射实验室提供的模拟银河宇宙辐射和太阳粒子事件辐射,(iii) 暴露于模拟胃液,以及 (iv)暴露于模拟肠液。 [2] 然而,我们证明了在这些极高无线电频率下的勘测能够发现新的脉冲星,分析它们相对于模拟银河中心脉冲星群的灵敏度限制,并讨论主要挑战以及如何在未来改进类似的勘测。 [3] 幸运的是,宇宙学流体动力学模拟提供了出色的星系群统计数据,让我们可以量化模拟的星系棒如何在暗物质晕中演化。 [4] 鉴于关于此类暴露的知识存在明显差距,我们评估了急性和慢性暴露于中子和光子混合场以及单次或分段模拟银河宇宙射线暴露 (GCRsim) 对小鼠行为和认知表现的影响。 [5]
simulated galactic bar
Most of the observed and simulated galactic bars are symmetric in the face-on view. [1] Fortunately, cosmological hydrodynamical simulations provide an excellent statistical population of galaxies, letting us quantify how simulated galactic bars evolve within dark matter haloes. [2]大多数观测和模拟的银河棒在正面视图中都是对称的。 [1] 幸运的是,宇宙学流体动力学模拟提供了出色的星系群统计数据,让我们可以量化模拟的星系棒如何在暗物质晕中演化。 [2]
simulated galactic cosmic
Parameters tested were survival to: (i) long-term storage at ambient conditions, (ii) simulated Galactic Cosmic Radiation and Solar Particle Event radiation provided by the NASA Space Radiation Laboratory, (iii) exposure to simulated gastric fluid, and (iv) exposure to simulated intestinal fluid. [1] Given the clear gap of knowledge regarding such exposures, we assessed the effects acute and chronic exposure to a mixed field of neutrons and photons and single or fractionated simulated galactic cosmic ray exposure (GCRsim) on behavioral and cognitive performance in mice. [2]测试的参数是:(i) 在环境条件下长期储存,(ii) NASA 空间辐射实验室提供的模拟银河宇宙辐射和太阳粒子事件辐射,(iii) 暴露于模拟胃液,以及 (iv)暴露于模拟肠液。 [1] 鉴于关于此类暴露的知识存在明显差距,我们评估了急性和慢性暴露于中子和光子混合场以及单次或分段模拟银河宇宙射线暴露 (GCRsim) 对小鼠行为和认知表现的影响。 [2]