Esempi in Python per vpath

Esempio n. 1

        0.04,
        #0.05,
        0.06,
        #0.08,
        0.10,
        #0.15,
        0.20,
        #0.30,
        0.40,
    ],
    colors=['w'] * 12,
    layer='alma_cont_hires')
F.save(paths.fpath("NACO_green_outflows_aplpy_CONTours_hires.png"))
F.save(paths.fpath("NACO_green_outflows_aplpy_CONTours_hires.pdf"))

h77a = SpectralCube.read(paths.vpath('data/W51north_H77_Outflow_cutout.fits'))
h77a_outflow = h77a.spectral_slab(-16 * u.km / u.s,
                                  -60 * u.km / u.s).sum(axis=0)
h77a_green = paths.dpath('W51_H77a_LacyJetOutflow_Sum.fits')
h77a_outflow.hdu.writeto(h77a_green, clobber=True)

F.show_contour(h77a_green,
               levels=[0.0075, 0.015, 0.030],
               colors=['b'] * 6,
               layer='h77a_outflow')
F.save(paths.fpath("NACO_green_outflows_aplpy_CONTours_hires_h77acontour.png"))
F.save(paths.fpath("NACO_green_outflows_aplpy_CONTours_hires_h77acontour.pdf"))

F.hide_layer('h77a_outflow')
F.hide_layer('alma_cont_hires')

Esempio n. 2

File: rgb_big_overlays.py Progetto: keflavich/W51_ALMA_2013.1.00308.S

        fig1 = pl.figure(1)
        fig1.clf()
        F = aplpy.FITSFigure(rgb_cube_png, figure=fig1)
        F.show_rgb(rgb_cube_png)
        #F.recenter(290.93315, 14.509584, radius=0.0075)
        F.add_scalebar((0.5*u.pc / (5400*u.pc)).to(u.deg,u.dimensionless_angles()))
        F.scalebar.set_label('0.5 pc')
        F.scalebar.set_color('w')
        #F.set_tick_xspacing(0.0005)
        F.add_label(0.05, 0.95, rlabel, relative=True, color='r', horizontalalignment='left')
        F.add_label(0.05, 0.91, glabel, relative=True, color='g', horizontalalignment='left')
        F.add_label(0.05, 0.87, blabel, relative=True, color='b', horizontalalignment='left')
        F.save(paths.fpath("W51e2_{0}_aplpy.png".format(name)))
        F.save(paths.fpath("W51e2_{0}_aplpy.pdf".format(name)))

        cmcontsrc = Table.read(paths.vpath('tables/EVLA_VLA_PointSourcePhotometry.ipac'),
                               format='ascii.ipac')
        cmok = (cmcontsrc['Frequency']==5.9) & (cmcontsrc['Epoch']=='3')
        cmcoords = coordinates.SkyCoord(cmcontsrc['gracen'][cmok],
                                        cmcontsrc['gdeccen'][cmok], frame='fk5')


        core_phot_tbl = Table.read(paths.tpath("continuum_photometry.ipac"), format='ascii.ipac')
        cores = coordinates.SkyCoord(core_phot_tbl['RA'], core_phot_tbl['Dec'],
                                     frame='fk5')

        F.show_markers(cmcoords.ra, cmcoords.dec, edgecolor=star_color, marker='*', alpha=0.75,
                       zorder=1, facecolor=star_color, layer='hiiregions')
        #F.hide_layer('hiiregions_text')
        F.save(paths.fpath("W51e2_{0}_aplpy_hiiregions.png".format(name)))
        F.save(paths.fpath("W51e2_{0}_aplpy_hiiregions.pdf".format(name)))

Esempio n. 3

File: overlay_alma_on_continuum.py Progetto: robmlough/W51_ALMA_2013.1.00308.S

    F.tick_labels.set_xformat('hh:mm:ss.ss')
    F.ticks.set_xspacing(0.001)
    F.ticks.set_yspacing(0.001)
    #F.tick_labels.set_x_full_label_side('left')


#aplpy.make_rgb_cube( ('W51-CBAND-feathered.fits','W51-X-ABCD-S1.VTESS.VTC.DAVID-MEH.fits','W51Ku_BDarray_continuum_2048_both_uniform.hires.clean.image.fits'), 'W51_CXU_rgb' )

pl.close(1)
figure = pl.figure(1)
figure.clf()

# clean the header of junk axes
hdu = fits.open(
    paths.vpath(
        'data/W51Ku_BDarray_continuum_2048_both_uniform.hires.clean.image.fits'
    ))
hdu[0].data = hdu[0].data.squeeze()
hdu[0].header = wcs.WCS(hdu[0].header).sub([wcs.WCSSUB_CELESTIAL]).to_header()

F = aplpy.FITSFigure(hdu, convention='calabretta', figure=figure)
#F = aplpy.FITSFigure(dpath+'W51Ku_BDarray_continuum_2048_both_uniform.hires.clean.image.rot45.fits',convention='calabretta',figure=figure)
F.tick_labels.set_xformat('dd.dd')
F.tick_labels.set_yformat('dd.dd')
F.tick_labels.set_font(size=20)
F.axis_labels.set_font(size=20)
F.show_grayscale(stretch='arcsinh', vmin=-5e-4, vmax=0.05, invert=True)
#e1 = coordinates.ICRS(290.93263,14.50745,unit=('deg','deg'))
#F.recenter(e1.ra.value,e1.dec.value,width=1/60.,height=1/60.)
#F.recenter(290.92633,14.514769,radius=1.4/60.)
# IRS2:

Esempio n. 4

File: compare_xray_cores.py Progetto: keflavich/W51_ALMA_2013.1.00308.S

import copy
from astropy.table import Table
from astropy import units as u
from astropy import coordinates
import pylab as pl
from astropy.io import fits
from astropy import wcs
from wcsaxes import WCS as WCSaxes
from astropy.convolution import convolve, Gaussian2DKernel

core_phot_tbl = Table.read(paths.tpath("continuum_photometry.ipac"), format='ascii.ipac')
cores = coordinates.SkyCoord(core_phot_tbl['RA'], core_phot_tbl['Dec'],
                             frame='fk5')

w51moxc = Table.read(paths.tpath('w51_moxc.ipac'), format='ascii.ipac')
cmcontsrc = Table.read(paths.vpath('tables/EVLA_VLA_PointSourcePhotometry.ipac'),
                                   format='ascii.ipac')
cmok = (cmcontsrc['Frequency']==5.9) & (cmcontsrc['Epoch']=='3')
cmcoords = coordinates.SkyCoord(cmcontsrc['gracen'][cmok],
                                cmcontsrc['gdeccen'][cmok], frame='fk5')



hdu = fits.open(paths.vpath("data/W51C_ACarray_continuum_4096_both_uniform_contsplit.clean.image.fits"))[0]

mywcs = wcs.WCS(hdu.header).sub([wcs.WCSSUB_CELESTIAL])
wcsaxes = WCSaxes(mywcs.to_header())

fig = pl.figure(1)
fig.clf()
ax = fig.add_axes([0.15, 0.1, 0.8, 0.8], projection=wcsaxes)

Esempio n. 5

File: overlay_alma_on_continuum.py Progetto: keflavich/W51_ALMA_2013.1.00308.S

def set_tight_ticks(F):
    F.tick_labels.set_yformat('dd:mm:ss.ss')
    F.tick_labels.set_xformat('hh:mm:ss.ss')
    F.ticks.set_xspacing(0.001)
    F.ticks.set_yspacing(0.001)
    #F.tick_labels.set_x_full_label_side('left')

#aplpy.make_rgb_cube( ('W51-CBAND-feathered.fits','W51-X-ABCD-S1.VTESS.VTC.DAVID-MEH.fits','W51Ku_BDarray_continuum_2048_both_uniform.hires.clean.image.fits'), 'W51_CXU_rgb' )

pl.close(1)
figure = pl.figure(1)
figure.clf()

# clean the header of junk axes
hdu = fits.open(paths.vpath('data/W51Ku_BDarray_continuum_2048_both_uniform.hires.clean.image.fits'))
hdu[0].data = hdu[0].data.squeeze()
hdu[0].header = wcs.WCS(hdu[0].header).sub([wcs.WCSSUB_CELESTIAL]).to_header()

F = aplpy.FITSFigure(hdu,convention='calabretta',figure=figure)
#F = aplpy.FITSFigure(dpath+'W51Ku_BDarray_continuum_2048_both_uniform.hires.clean.image.rot45.fits',convention='calabretta',figure=figure)
F.tick_labels.set_xformat('dd.dd')
F.tick_labels.set_yformat('dd.dd')
F.tick_labels.set_font(size=20)
F.axis_labels.set_font(size=20)
F.show_grayscale(stretch='arcsinh',vmin=-5e-4,vmax=0.05,invert=True)
#e1 = coordinates.ICRS(290.93263,14.50745,unit=('deg','deg'))
#F.recenter(e1.ra.value,e1.dec.value,width=1/60.,height=1/60.)
#F.recenter(290.92633,14.514769,radius=1.4/60.)
# IRS2:
F.recenter(290.91644,14.518939,radius=0.3/60.)

Esempio n. 6

from astropy import coordinates
import pylab as pl
from astropy.io import fits
from astropy import wcs
from wcsaxes import WCS as WCSaxes
from astropy.convolution import convolve, Gaussian2DKernel

core_phot_tbl = Table.read(paths.tpath("continuum_photometry.ipac"),
                           format='ascii.ipac')
cores = coordinates.SkyCoord(core_phot_tbl['RA'],
                             core_phot_tbl['Dec'],
                             frame='fk5')

w51moxc = Table.read(paths.tpath('w51_moxc.ipac'), format='ascii.ipac')
cmcontsrc = Table.read(
    paths.vpath('tables/EVLA_VLA_PointSourcePhotometry.ipac'),
    format='ascii.ipac')
cmok = (cmcontsrc['Frequency'] == 5.9) & (cmcontsrc['Epoch'] == '3')
cmcoords = coordinates.SkyCoord(cmcontsrc['gracen'][cmok],
                                cmcontsrc['gdeccen'][cmok],
                                frame='fk5')

hdu = fits.open(
    paths.vpath(
        "data/W51C_ACarray_continuum_4096_both_uniform_contsplit.clean.image.fits"
    ))[0]

mywcs = wcs.WCS(hdu.header).sub([wcs.WCSSUB_CELESTIAL])
wcsaxes = WCSaxes(mywcs.to_header())

fig = pl.figure(1)

Esempio n. 7

def zoomfigure(target=e2e, targetname='e2e', radius=7.5*u.arcsec, cutout='e2e8',
               zoom_radius=3*u.arcsec, tick_spacing=1.8*u.arcsec):

    fn = paths.dpath('merge/cutouts/W51_b6_7M_12M.HNCO10010-909.image.pbcor_{0}cutout.fits'.format(cutout))
    m0hnco = get_mom0(fn, iterate=False)

    cutout_cont = Cutout2D(cont_fits[0].data, target, radius, wcs=wcs.WCS(cont_fits[0].header))
    cutout_ch3oh = Cutout2D(m0ch3oh.value, target, radius, wcs=wcs.WCS(m0ch3oh.header))
    cutout_hnco = Cutout2D(m0hnco.value, target, radius, wcs=wcs.WCS(m0hnco.header))

    cont_fits_cutout = fits.PrimaryHDU(data=cutout_cont.data, header=cutout_cont.wcs.to_header())
    ch3oh_fits_cutout = fits.PrimaryHDU(data=cutout_ch3oh.data, header=cutout_ch3oh.wcs.to_header())
    hnco_fits_cutout = fits.PrimaryHDU(data=cutout_hnco.data, header=cutout_hnco.wcs.to_header())
    cont_fits_fn = "rgb/continuum_{0}_cutout.fits".format(targetname)
    hnco_fits_fn = "rgb/hnco_{0}_cutout.fits".format(targetname)
    ch3oh_fits_fn = "rgb/ch3oh_{0}_cutout.fits".format(targetname)
    cont_fits_cutout.writeto(cont_fits_fn, clobber=True)
    ch3oh_fits_cutout.writeto(ch3oh_fits_fn, clobber=True)
    hnco_fits_cutout.writeto(hnco_fits_fn, clobber=True)


    rgb_cube_fits = '{0}_ch3oh_hnco_cont.fits'.format(targetname)
    if not os.path.exists(rgb_cube_fits):
        # does not return anything
        aplpy.make_rgb_cube([ch3oh_fits_fn, hnco_fits_fn, cont_fits_fn,], rgb_cube_fits)

    rgb_cube_png = rgb_cube_fits[:-5]+"_auto.png"
    rgb_im = aplpy.make_rgb_image(data=rgb_cube_fits, output=rgb_cube_png,
                                  embed_avm_tags=True)

    rgb_cube_png = rgb_cube_fits[:-5]+"_logcont.png"
    rgb_im = aplpy.make_rgb_image(data=rgb_cube_fits, output=rgb_cube_png,
                                  #vmin_b=0.005,
                                  #vmax_b=0.15,
                                  stretch_b='log', embed_avm_tags=True)

    #rgb_cube_png = rgb_cube_fits[:-5]+"_asinhgreen.png"
    #rgb_im = aplpy.make_rgb_image(data=rgb_cube_fits, output=rgb_cube_png,
    #                              vmax_g=0.017,
    #                              vmax_b=6.5,
    #                              vmax_r=7.0,
    #                              vmin_g=0.0001,
    #                              stretch_g='arcsinh', embed_avm_tags=True)
    #
    #
    pl.rcParams['font.size'] = 18
    fig1 = pl.figure(1)
    fig1.clf()
    F = aplpy.FITSFigure(rgb_cube_png, figure=fig1)
    F.show_rgb(rgb_cube_png)
    #F.recenter(290.93315, 14.509584, radius=0.00075)
    F.recenter(target.ra.deg, target.dec.deg, radius=zoom_radius.to(u.deg).value)
    F.add_scalebar((0.025*u.pc / (5400*u.pc)).to(u.deg,u.dimensionless_angles()))
    F.scalebar.set_label('5000 au / 0.025 pc')
    F.scalebar.set_color('w')
    F.set_tick_xspacing(tick_spacing.to(u.deg).value)
    F.add_label(0.05, 0.95, "CH$_3$OH", relative=True, color='r', horizontalalignment='left')
    F.add_label(0.05, 0.91, "HNCO", relative=True, color='g', horizontalalignment='left')
    F.add_label(0.05, 0.87, "Continuum", relative=True, color='b', horizontalalignment='left')
    F.save(paths.fpath("W51{0}_ch3oh_hnco_continuum_aplpy.png".format(targetname)))
    F.save(paths.fpath("W51{0}_ch3oh_hnco_continuum_aplpy.pdf".format(targetname)))

    F.show_contour(paths.vpath('data/W51Ku_BDarray_continuum_2048_both_uniform.hires.clean.image.fits'),
                   levels=np.array([0.0015,0.0045,0.0135,0.0270,0.054,0.108])*1.25,
                   colors=['w']*7, layer='evla_cont')
    F.save(paths.fpath("W51{0}_ch3oh_hnco_continuum_aplpy_kucontours.png".format(targetname)))
    F.save(paths.fpath("W51{0}_ch3oh_hnco_continuum_aplpy_kucontours.pdf".format(targetname)))

Esempio n. 8

File: methanol_hnco_continuum.py Progetto: keflavich/W51_ALMA_2013.1.00308.S

def zoomfigure(
    target=e2e,
    targetname="e2e",
    radius=7.5 * u.arcsec,
    cutout="e2e8",
    zoom_radius=3 * u.arcsec,
    tick_spacing=1.8 * u.arcsec,
):

    fn = paths.dpath("merge/cutouts/W51_b6_7M_12M.HNCO10010-909.image.pbcor_{0}cutout.fits".format(cutout))
    m0hnco = get_mom0(fn, iterate=False)

    cutout_cont = Cutout2D(cont_fits[0].data, target, radius, wcs=wcs.WCS(cont_fits[0].header))
    cutout_ch3oh = Cutout2D(m0ch3oh.value, target, radius, wcs=wcs.WCS(m0ch3oh.header))
    cutout_hnco = Cutout2D(m0hnco.value, target, radius, wcs=wcs.WCS(m0hnco.header))

    cont_fits_cutout = fits.PrimaryHDU(data=cutout_cont.data, header=cutout_cont.wcs.to_header())
    ch3oh_fits_cutout = fits.PrimaryHDU(data=cutout_ch3oh.data, header=cutout_ch3oh.wcs.to_header())
    hnco_fits_cutout = fits.PrimaryHDU(data=cutout_hnco.data, header=cutout_hnco.wcs.to_header())
    cont_fits_fn = "rgb/continuum_{0}_cutout.fits".format(targetname)
    hnco_fits_fn = "rgb/hnco_{0}_cutout.fits".format(targetname)
    ch3oh_fits_fn = "rgb/ch3oh_{0}_cutout.fits".format(targetname)
    cont_fits_cutout.writeto(cont_fits_fn, clobber=True)
    ch3oh_fits_cutout.writeto(ch3oh_fits_fn, clobber=True)
    hnco_fits_cutout.writeto(hnco_fits_fn, clobber=True)

    rgb_cube_fits = "{0}_ch3oh_hnco_cont.fits".format(targetname)
    if not os.path.exists(rgb_cube_fits):
        # does not return anything
        aplpy.make_rgb_cube([ch3oh_fits_fn, hnco_fits_fn, cont_fits_fn], rgb_cube_fits)

    rgb_cube_png = rgb_cube_fits[:-5] + "_auto.png"
    rgb_im = aplpy.make_rgb_image(data=rgb_cube_fits, output=rgb_cube_png, embed_avm_tags=True)

    rgb_cube_png = rgb_cube_fits[:-5] + "_logcont.png"
    rgb_im = aplpy.make_rgb_image(
        data=rgb_cube_fits,
        output=rgb_cube_png,
        # vmin_b=0.005,
        # vmax_b=0.15,
        stretch_b="log",
        embed_avm_tags=True,
    )

    # rgb_cube_png = rgb_cube_fits[:-5]+"_asinhgreen.png"
    # rgb_im = aplpy.make_rgb_image(data=rgb_cube_fits, output=rgb_cube_png,
    #                              vmax_g=0.017,
    #                              vmax_b=6.5,
    #                              vmax_r=7.0,
    #                              vmin_g=0.0001,
    #                              stretch_g='arcsinh', embed_avm_tags=True)
    #
    #
    pl.rcParams["font.size"] = 18
    fig1 = pl.figure(1)
    fig1.clf()
    F = aplpy.FITSFigure(rgb_cube_png, figure=fig1)
    F.show_rgb(rgb_cube_png)
    # F.recenter(290.93315, 14.509584, radius=0.00075)
    F.recenter(target.ra.deg, target.dec.deg, radius=zoom_radius.to(u.deg).value)
    F.add_scalebar((0.025 * u.pc / (5400 * u.pc)).to(u.deg, u.dimensionless_angles()))
    F.scalebar.set_label("5000 au / 0.025 pc")
    F.scalebar.set_color("w")
    F.set_tick_xspacing(tick_spacing.to(u.deg).value)
    F.add_label(0.05, 0.95, "CH$_3$OH", relative=True, color="r", horizontalalignment="left")
    F.add_label(0.05, 0.91, "HNCO", relative=True, color="g", horizontalalignment="left")
    F.add_label(0.05, 0.87, "Continuum", relative=True, color="b", horizontalalignment="left")
    F.save(paths.fpath("rgb_zooms/W51{0}_ch3oh_hnco_continuum_aplpy.png".format(targetname)))
    F.save(paths.fpath("rgb_zooms/W51{0}_ch3oh_hnco_continuum_aplpy.pdf".format(targetname)))

    F.show_contour(
        paths.vpath("data/W51Ku_BDarray_continuum_2048_both_uniform.hires.clean.image.fits"),
        levels=np.array([0.0015, 0.0045, 0.0135, 0.0270, 0.054, 0.108]) * 1.25,
        colors=["w"] * 7,
        layer="evla_cont",
    )
    F.save(paths.fpath("rgb_zooms/W51{0}_ch3oh_hnco_continuum_aplpy_kucontours.png".format(targetname)))
    F.save(paths.fpath("rgb_zooms/W51{0}_ch3oh_hnco_continuum_aplpy_kucontours.pdf".format(targetname)))

Esempio n. 9

File: rgb_overlay_zooms.py Progetto: robmlough/W51_ALMA_2013.1.00308.S

        #F.scalebar.set_length((0.05*u.pc / (5400*u.pc)).to(u.deg,u.dimensionless_angles()))
        F.scalebar.set_label('0.05 pc')
        F.scalebar.set_color('w')

        #F.set_tick_xspacing(0.0005)
        #F.add_label(0.05, 0.95, rlabel, relative=True, color='r', horizontalalignment='left')
        #F.add_label(0.05, 0.91, glabel, relative=True, color='g', horizontalalignment='left')
        #F.add_label(0.05, 0.87, blabel, relative=True, color='b', horizontalalignment='left')
        F.save(paths.fpath("rgb_zooms/W51e2_{0}_aplpy.png".format(name)))
        F.save(paths.fpath("rgb_zooms/W51e2_{0}_aplpy.pdf".format(name)))

        # zoom on "e1 cluster"
        F.recenter(e1.ra.deg, e1.dec.deg, radius=11./3600.)
        F.set_tick_xspacing(6./3600)

        cmcontsrc = Table.read(paths.vpath('tables/EVLA_VLA_PointSourcePhotometry.ipac'),
                               format='ascii.ipac')
        cmok = (cmcontsrc['Frequency']==5.9) & (cmcontsrc['Epoch']=='3')
        cmcoords = coordinates.SkyCoord(cmcontsrc['gracen'][cmok],
                                        cmcontsrc['gdeccen'][cmok], frame='fk5')


        core_phot_tbl = Table.read(paths.tpath("continuum_photometry.ipac"), format='ascii.ipac')
        cores = coordinates.SkyCoord(core_phot_tbl['RA'], core_phot_tbl['Dec'],
                                     frame='fk5')


        F.scalebar.set_label('0.05 pc')
        F.scalebar.set_color('w')

        F.show_markers(cmcoords.ra, cmcoords.dec, edgecolor=star_color, marker='*', alpha=0.75,

Esempio n. 10

File: outflow_overlays_large.py Progetto: hongliliu/W51_ALMA_2013.1.00308.S

            #0.15,
            0.20,
            #0.30,
            0.40,
        ],
        colors=['w'] * 12,
        layer='alma_cont_hires')
    F.save(
        paths.fpath("NACO_green_{0}_outflows_aplpy_CONTours_hires.png".format(
            species)))
    F.save(
        paths.fpath("NACO_green_{0}_outflows_aplpy_CONTours_hires.pdf".format(
            species)))

    h77a = SpectralCube.read(
        paths.vpath('data/W51north_H77_Outflow_cutout.fits'))
    h77a_outflow = h77a.spectral_slab(-16 * u.km / u.s,
                                      -60 * u.km / u.s).sum(axis=0)
    h77a_green = paths.dpath('W51_H77a_LacyJetOutflow_Sum.fits')
    h77a_outflow.hdu.writeto(h77a_green, clobber=True)

    F.show_contour(h77a_green,
                   levels=[0.0075, 0.015, 0.030],
                   colors=['b'] * 6,
                   layer='h77a_outflow')
    F.save(
        paths.fpath(
            "NACO_green_{0}_outflows_aplpy_CONTours_hires_h77acontour.png".
            format(species)))
    F.save(
        paths.fpath(

Esempio n. 11

        F.scalebar.set_label('0.05 pc')
        F.scalebar.set_color('w')

        #F.set_tick_xspacing(0.0005)
        #F.add_label(0.05, 0.95, rlabel, relative=True, color='r', horizontalalignment='left')
        #F.add_label(0.05, 0.91, glabel, relative=True, color='g', horizontalalignment='left')
        #F.add_label(0.05, 0.87, blabel, relative=True, color='b', horizontalalignment='left')
        F.save(paths.fpath("rgb_zooms/W51e2_{0}_aplpy.png".format(name)))
        F.save(paths.fpath("rgb_zooms/W51e2_{0}_aplpy.pdf".format(name)))

        # zoom on "e1 cluster"
        F.recenter(e1.ra.deg, e1.dec.deg, radius=11. / 3600.)
        F.set_tick_xspacing(6. / 3600)

        cmcontsrc = Table.read(
            paths.vpath('tables/EVLA_VLA_PointSourcePhotometry.ipac'),
            format='ascii.ipac')
        cmok = (cmcontsrc['Frequency'] == 5.9) & (cmcontsrc['Epoch'] == '3')
        cmcoords = coordinates.SkyCoord(cmcontsrc['gracen'][cmok],
                                        cmcontsrc['gdeccen'][cmok],
                                        frame='fk5')

        core_phot_tbl = Table.read(paths.tpath("continuum_photometry.ipac"),
                                   format='ascii.ipac')
        cores = coordinates.SkyCoord(core_phot_tbl['RA'],
                                     core_phot_tbl['Dec'],
                                     frame='fk5')

        F.scalebar.set_label('0.05 pc')
        F.scalebar.set_color('w')

Esempio n. 12

File: outflow_overlays_large.py Progetto: keflavich/W51_ALMA_2013.1.00308.S

                   levels=[0.04,
                           #0.05,
                           0.06,
                           #0.08,
                           0.10,
                           #0.15,
                           0.20,
                           #0.30,
                           0.40,], colors=['w']*12,
                   layer='alma_cont_hires')
    F.save(paths.fpath("NACO_green_{0}_outflows_aplpy_CONTours_hires.png".format(species)))
    F.save(paths.fpath("NACO_green_{0}_outflows_aplpy_CONTours_hires.pdf".format(species)))



    h77a = SpectralCube.read(paths.vpath('data/W51north_H77_Outflow_cutout.fits'))
    h77a_outflow = h77a.spectral_slab(-16*u.km/u.s, -60*u.km/u.s).sum(axis=0)
    h77a_green = paths.dpath('W51_H77a_LacyJetOutflow_Sum.fits')
    h77a_outflow.hdu.writeto(h77a_green, clobber=True)

    F.show_contour(h77a_green, levels=[0.0075, 0.015, 0.030], colors=['b']*6,
                   layer='h77a_outflow')
    F.save(paths.fpath("NACO_green_{0}_outflows_aplpy_CONTours_hires_h77acontour.png".format(species)))
    F.save(paths.fpath("NACO_green_{0}_outflows_aplpy_CONTours_hires_h77acontour.pdf".format(species)))


    F.hide_layer('h77a_outflow')
    F.hide_layer('alma_cont_hires')


    F.show_contour(paths.dpath('longbaseline/W51ncax.cont.image.pbcor.fits'),