def plot_pi_time (self, ccdnum):
import omega as om
p = om.quickDF (self.events[self.events.ccdnr == ccdnum][['dmjd', 'pi']],
self.targ_name,
lines=False)
self._plot_add_gtis (p, ccdnum)
p.setLabels ('MJD - %.0f' % self.mjd0, 'PI')
return p
def plot_pi_time (self, ccdnum):
import omega as om
p = om.quickDF (self.events[self.events.ccdnr == ccdnum][['dmjd', 'pi']],
self.targ_name,
lines=False)
self._plot_add_gtis (p, ccdnum)
p.setLabels ('MJD - %.0f' % self.mjd0, 'PI')
return p
def plot_curve (self, ccdnum=None):
import omega as om
p = om.quickDF (self.lc[['dmjd', 'rate', 'u_rate']].dropna (),
self.targ_name,
lines=False)
if ccdnum is not None:
self._plot_add_gtis (p, ccdnum)
p.setLabels ('MJD - %.0f' % self.mjd0, 'Count rate')
return p
def plot_curve (self, ccdnum=None):
import omega as om
p = om.quickDF (self.lc[['dmjd', 'rate', 'u_rate']].dropna (),
self.targ_name,
lines=False)
if ccdnum is not None:
self._plot_add_gtis (p, ccdnum)
p.setLabels ('MJD - %.0f' % self.mjd0, 'Count rate')
return p
