“Astropy”的版本间差异
跳到导航
跳到搜索
无编辑摘要 |
|||
第26行: | 第26行: | ||
data.columns #看看有那些列 |
data.columns #看看有那些列 |
||
Bage=data.field('Age') |
Bage=data.field('Age') |
||
==fits image读写== |
|||
n = np.arange(100.0) |
|||
hdu = fits.PrimaryHDU(n) |
|||
hdu.writeto('new2.fits') |
|||
hdu.writeto('new2.fits') |
|||
*如果超过一个hud |
|||
>>> hdul = fits.HDUList([hdu]) |
|||
>>> hdul.writeto('new1.fits') |
|||
==astrometry== |
==astrometry== |
2018年9月3日 (一) 12:04的版本
astropy.io.fits
>>> hdulist = fits.open('input.fits') >>> hdulist.info()
header
- each element of an HDUList is an HDU object with .header and .data attributes, which can be used to access the header and data portions of the HDU.
>>> hdulist[0].header['targname']
- To see the entire header as it appears in the FITS file (with the END card and padding stripped), simply enter the header object by itself, or print(repr(header)):
- It’s also possible to view a slice of the header:
>>> header[:2]
- Another way to either update an existing card or append a new one is to use the Header.set() method:
>>> prihdr.set('observer', 'Edwin Hubble')
fits table 的读与写
- 写
from astropy.table import Table t=Table([Bage,fzbin,Age_weight2],names=('Age','z','weights')) t.write('SFH_LMC3_out.fits',format='fits')
- 读
hdu = fits.open('SFH_LMC3_out.fits') hdu.info() #看看哪些hdu data=hdu[1].data data.columns #看看有那些列 Bage=data.field('Age')
fits image读写
n = np.arange(100.0) hdu = fits.PrimaryHDU(n) hdu.writeto('new2.fits') hdu.writeto('new2.fits')
- 如果超过一个hud
>>> hdul = fits.HDUList([hdu]) >>> hdul.writeto('new1.fits')
astrometry
- match 两个星表
>>> from astropy.coordinates import SkyCoord >>> from astropy import units as u >>> c = SkyCoord(ra=ra1*u.degree, dec=dec1*u.degree) >>> catalog = SkyCoord(ra=ra2*u.degree, dec=dec2*u.degree) >>> idx, d2d, d3d = c.match_to_catalog_sky(catalog) >>> sel=np.where(d2d.degree < 0.00002)
宇宙学
http://docs.astropy.org/en/stable/cosmology/
- 从红移到年龄
>>>from astropy.cosmology import FlatLambdaCDM >>>cosmo = FlatLambdaCDM(H0=70, Om0=0.3)
- 从年龄到红移
>>> import astropy.units as u >>> from astropy.cosmology import z_at_value >>> z_at_value(cosmos.age, 2 * u.Gyr)