“Stellar library”的版本间差异
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无编辑摘要 |
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| (未显示同一用户的4个中间版本) | |||
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[[MaNGA]]里面用了11个库,下面的主要是对DAP里面的用的库的注释 |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/m11_marcs/*_s.fits |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/m11_stelib/*_s.fits |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/m11_stelib_zsol/*_s.fits |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/m11_elodie/*.fits |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/m11_miles/*.fits |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/miles/*.fits |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/miles_avg/*.fits |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/miles_thin/*.fits |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/stelib/*.fits |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/miuscat/*.fits |
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:/home/shen/MANGA/DAP/1.1.1/external/templates/miuscat_thin/*.fits |
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以上文件路径可通过 |
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MDAP_DEFINE_AVAILABLE_TEMPLATE_LIBRARIES, tpl_library_keys, template_libraries, tpl_vacuum_wave,dapsrc=dapsrc |
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==M11-STELIB== |
==M11-STELIB== |
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'''ssp_M11_MILES.ss.z004 (z=0.04)''' |
'''ssp_M11_MILES.ss.z004 (z=0.04)''' |
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:22 ages, 400 Myr to 15 Gyr |
:22 ages, 400 Myr to 15 Gyr |
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:85个读入的顺序是按照文件名排序的,可以在~/MANGA/DAP/1.1.1/external/templates/m11_stelib目录下,用ls *_s.fits查看 |
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:85个读入的顺序是 |
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M11_STELIB_res3.40_imf_ss_age_0.030000000_z_0.02_s.fits |
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*MILES extended |
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M11_STELIB_res3.40_imf_ss_age_0.035000000_z_0.02_s.fits |
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:covers the optical and the infrared wavelength range between 3500 and 50000 |
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M11_STELIB_res3.40_imf_ss_age_0.040000000_z_0.02_s.fits |
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: based on empirical stellar spectra |
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M11_STELIB_res3.40_imf_ss_age_0.045000000_z_0.02_s.fits |
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:Age> 1 Gyr, for metallicities between [Fe/H] = -0.40 and 0.26, for initial mass functions of various types and slopes, and on the basis of two different sets of isochrones. |
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M11_STELIB_res3.40_imf_ss_age_0.050000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.055000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.060000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.065000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.070000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.075000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.080000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.085000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.090000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.095000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.10000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.20000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.20000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.30000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.30000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.40000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.40000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.40000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.50000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.50000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.50000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.60000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.60000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.60000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.70000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.70000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.70000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.80000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.80000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.80000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.90000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.90000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_0.90000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_1.0000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_10.000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_1.0000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_10.000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_1.0000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_10.000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_11.000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_11.000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_11.000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_12.000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_12.000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_12.000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_13.000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_13.000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_13.000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_14.000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_14.000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_14.000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_1.5000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_15.000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_1.5000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_15.000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_1.5000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_15.000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_2.0000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_2.0000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_2.0000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_3.0000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_3.0000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_3.0000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_4.0000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_4.0000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_4.0000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_5.0000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_5.0000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_5.0000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_6.0000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_6.0000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_6.0000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_7.0000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_7.0000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_7.0000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_8.0000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_8.0000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_8.0000000_z_0.04_s.fits |
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M11_STELIB_res3.40_imf_ss_age_9.0000000_z_0.01_s.fits |
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M11_STELIB_res3.40_imf_ss_age_9.0000000_z_0.02_s.fits |
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M11_STELIB_res3.40_imf_ss_age_9.0000000_z_0.04_s.fits |
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2016年9月20日 (二) 02:46的最新版本
MaNGA里面用了11个库,下面的主要是对DAP里面的用的库的注释
- /home/shen/MANGA/DAP/1.1.1/external/templates/m11_marcs/*_s.fits
- /home/shen/MANGA/DAP/1.1.1/external/templates/m11_stelib/*_s.fits
- /home/shen/MANGA/DAP/1.1.1/external/templates/m11_stelib_zsol/*_s.fits
- /home/shen/MANGA/DAP/1.1.1/external/templates/m11_elodie/*.fits
- /home/shen/MANGA/DAP/1.1.1/external/templates/m11_miles/*.fits
- /home/shen/MANGA/DAP/1.1.1/external/templates/miles/*.fits
- /home/shen/MANGA/DAP/1.1.1/external/templates/miles_avg/*.fits
- /home/shen/MANGA/DAP/1.1.1/external/templates/miles_thin/*.fits
- /home/shen/MANGA/DAP/1.1.1/external/templates/stelib/*.fits
- /home/shen/MANGA/DAP/1.1.1/external/templates/miuscat/*.fits
- /home/shen/MANGA/DAP/1.1.1/external/templates/miuscat_thin/*.fits
以上文件路径可通过
MDAP_DEFINE_AVAILABLE_TEMPLATE_LIBRARIES, tpl_library_keys, template_libraries, tpl_vacuum_wave,dapsrc=dapsrc
M11-STELIB
- stellar library STELIB by Le Borgne et al. (2003).
- Usable wavelength range for all ages is 3201.0 - 7900.0 AA!
- 原始分辨率:0.5 A/pixel, and a FWHM of the resolution element of 3.1 angstroms. Resampled this to 1 A/pixel to reduce the oversampling of the spectra. The resampled spectra are named *_s.fits; the original spectra do not have the _s suffix. When constructing the library to fit the spectra, only the *_s.fits spectra are read.
- IMF
- '.ss' ==> Salpeter IMF
- '.kr' ==> Kroupa IMF
- '.cha' ==> Chabrier IMF
- DAP 只用了3个金属丰度,一共85个SSP
ssp_M11_MILES.ss.z001 (z=0.01)
- 24 ages, 200 Myr to 15 Gyr,3201.0 - 9296.5 AA 12192 flux point
ssp_M11_MILES.ss.z002 (solar metallicity)
- 39 ages, 30 Myr to 15 Gyr
ssp_M11_MILES.ss.z004 (z=0.04)
- 22 ages, 400 Myr to 15 Gyr
:85个读入的顺序是按照文件名排序的,可以在~/MANGA/DAP/1.1.1/external/templates/m11_stelib目录下,用ls *_s.fits查看
- MILES extended
- covers the optical and the infrared wavelength range between 3500 and 50000
- based on empirical stellar spectra
- Age> 1 Gyr, for metallicities between [Fe/H] = -0.40 and 0.26, for initial mass functions of various types and slopes, and on the basis of two different sets of isochrones.