数字展示厅
恒星的结构和演变模拟器
Digital Demo Room
Stellar Structure and Evolution Simulator
高级水平的接口 Advanced Level Interface
唯一的质量、金属丰和次恒星形成的领域可以 超过一个价值。
Only the mass, metallicity, and times of star formation fields can take more than one value.
对于多重价值的投入,这些领域, 独立的逗号和/或空间。
For multiple values input into these fields, separate by commas and/or spaces.
| 大量的星星 Mass of Stars
群众是在太阳能单元,并且必须具有的价值观之间的0.1和120 太阳质量。 你必须进入一个或多个值的大规模运行的 模拟,除非你输入值的随机选择的质量 领域。 Masses are in solar units and must have values between 0.1 and 120 solar masses. You must enter a value or values for the mass to run the simulation unless you enter a value into the randomly chosen mass field below. |
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| 金属丰星 (可选) Metallicity of Stars (Optional) 金属丰是小部分的一个恒星组成,是由元素 比氦。 Metallicities必须具有的价值观之间的和0.0001 0.03. 如果没有值的投入,metallicities将被设为太阳 金属丰. 只有广大的输入上可分配的金属丰在 这种方式。 Metallicity is the fraction of a star's composition that is made up of elements heavier than Helium. Metallicities must have values between 0.0001 and 0.03. If no values are input, metallicities will be set to solar metallicity. Only masses input above can be assigned metallicity in this way. |
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| 数量的额外的随意大规模集结的星星 Number of additional randomly massed stars 数量的随意大规模集结的星星必须小于1000。 分配的随机群众是由一个恒星的初始质量 功能。 值的最低和最高产生的群众可以 输入的用户。 但是,较低大批量限制和质量上限制必须 没有低于 0.1太阳质量,最高不得超过120太阳质量。 如果没有 值的投入,默认值 显示将来使用。 注意,与人民群众低于0.9 太阳质量不要发展上一个实用的时间尺度。 Metallicities 都是随机分配。 The number of randomly massed stars must be less than 1000. The distribution of the random masses is determined by a stellar inital mass function. Values for the lowest and highest generated masses may be input by the user. However, the lower mass limit and upper mass limit must be no lower than 0.1 solar masses and no higher than 120 solar masses respectively. If no values are input, the default values displayed will be used. Note that stars with masses less than 0.9 solar masses do not evolve on a practical time scale. Metallicities are assigned randomly. |
编号: Number:
低质量的限制: Lower Mass Limit: 上质量限制: Upper Mass Limit: |
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| 开始的时间 (可选) Beginning Time (Optional) 星花费他们的大部分生活在主序之前不断发展, 设定开始的时间后可以跳过这个相对较 平静的时期。 通常,电影开始的时间为零。 Stars spend most of their lives on the main sequence before evolving, setting beginning time later can skip through this relatively uneventful period. Normally movies start at time zero. |
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| 结束的时间 (可选) Ending Time (Optional) 时间都在几百万年(MYear),并必须具有的价值观之间的5 和30000MYear. 它建议 值20和150MYear高质量的恒星, 150之间的和15000MYear于低质量的恒星。 Times are in millions of years (MYear), and must have values between 5 and 30000 MYear. It is recommended that the value be between 20 and 150 MYear for high mass stars and between 150 and 15000 MYear for low mass stars. |
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| 数量框架 Number of Frames 该影片是建立在大约30秒,每500框架,但是 更框架更好地显示的演变的星星。 The movie is created in about 30 seconds for every 500 frames, but more frames better show the evolution of the stars. |
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| 类型恒星形成的 Type of Star Formation 初始爆发创造了所有的星星,你在输入时开始。 星的爆发创造了星分之间开始和 次你进入下面。 连续的星形成创新的恒星 在模拟。 增加或减少的连续 增加或减少的速度的诞生。 Initial Burst creates all the stars you inputted at the beginning. Star Bursts creates stars divided up between the beginning and the times you enter below. Continous star formation creates new stars throughout the simulation. Increasing or decreasing continous increases or decreases the rate of birth over time. |
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| 次恒星形成的 (可选) Times of Star Formation (Optional) 时间都在几百万年(MYear). 星星通常的形式爆发, 会有一个初始爆发,但其他突发可以用于 模拟复杂的星系。 The times are in millions of years (MYear). Stars often form in bursts, there will be an initial burst, but additional bursts can be used to simulate more complicated galaxies. |
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| 演变的轨道 (可选) Evolution Tracks (Optional) 如果该选择框检查,拟将创建的进化 轨道上的人力资源图,用以每个星星的发展。 如果它是 不进行检查,在模拟会只是发展的明星而不创建 它的轨道上,人力资源图。 If the checkbox is checked, the simulation will create evolutionary tracks on the HR diagram for each star as the star evolves. If it is not checked, the simulation will just evolve the star without creating its tracks on the HR diagram. |
演变的轨道上 Evolution Tracks On | |
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