コード例 #1
0
def freqs_to_vel(center_freq, fs, sc):
    """Convert frequency to radial Doppler velocity.

    Accounts for movement of the earth relative to the sun and the sun relative to galactic center.

    Args:
        center_freq: frequency at zero velocity
        fs: Quantity object representing frequencies
        sc: SkyCoord object representing one or many coordinates (must have obstime and location set)
    """

    # Convert from earth reference frame to solar reference frame using
    # https://docs.astropy.org/en/stable/coordinates/velocities.html#radial-velocity-corrections
    # Then convert from solar reference frame to Galactic Standard of Rest using
    # https://docs.astropy.org/en/stable/generated/examples/coordinates/rv-to-gsr.html
    pos_gal = sc.galactic
    v_to_bary = pos_gal.radial_velocity_correction(kind='barycentric')
    # Calculate the sun's velocity projected in the observing direction.
    v_sun = Galactocentric().galcen_v_sun.to_cartesian()
    cart_data = pos_gal.data.to_cartesian()
    unit_vector = cart_data / cart_data.norm()
    v_proj = v_sun.dot(unit_vector)

    doppler_shift = u.doppler_radio(center_freq)

    v_local = fs.to(u.km/u.s, doppler_shift)
    v_bary = v_local + v_to_bary + v_local * v_to_bary / c
    # v_bary is now barycentric; now we need to remove the solar system motion as well
    return (v_bary + v_proj)
コード例 #2
0
def freqs_to_vel(center_freq, fs, lcoord, bcoord):
    # Convert from earth reference frame to solar reference frame using
    # https://docs.astropy.org/en/stable/coordinates/velocities.html#radial-velocity-corrections
    # Then convert from solar reference frame to Galactic Standard of Rest using
    # https://docs.astropy.org/en/stable/generated/examples/coordinates/rv-to-gsr.html
    pos_gal = SkyCoord(l=lcoord * u.degree,
                       b=bcoord * u.degree,
                       frame='galactic')
    v_to_bary = pos_gal.radial_velocity_correction(
        kind='barycentric',
        obstime=get_time(),
        location=radome_observer.location)
    # Calculate the sun's velocity projected in the observing direction.
    v_sun = Galactocentric().galcen_v_sun.to_cartesian()
    cart_data = pos_gal.data.to_cartesian()
    unit_vector = cart_data / cart_data.norm()
    v_proj = v_sun.dot(unit_vector)

    def freq_to_vel(f):
        f = f * u.MHz
        v_local = f.to(u.km / u.s, u.doppler_radio(center_freq * u.MHz))
        v_bary = v_local + v_to_bary + v_local * v_to_bary / c
        # v_bary is now barycentric; now we need to remove the solar system motion as well
        return (v_bary + v_proj) / (u.km / u.s)

    return [freq_to_vel(f) for f in fs]