ApertureFluxes#

class prose.fluxes.ApertureFluxes#

Methods

__init__(xarray)

best_polynomial([add, verbose])

Return the best systematics polynomial model orders.

binn(dt[, std, keep_coords])

broeg2005([inplace, cut, nans])

The Broeg et al. 2005 differential photometry algorithm.

copy()

diff(comps[, inplace])

Differential photometry based on a set of comparison stars

dm_bic(dm)

dm_ll(dm)

load(filepath)

lstsq(X[, star, split])

Given a design matrix return the fitted trend

mask(mask[, dim])

noise_stats([bins, verbose])

pick_best_aperture([method, return_criterion])

plot([star, bins, color, std, mask])

plot_detrended([star, bins, color, std, ...])

polynomial(**orders)

Return a design matrix representing a polynomial model

polynomial_trend([bic, verbose])

pont2006([plot])

save(filepath)

set_attribute(file, **kwargs)

sigma_clip([sigma, star])

Sigma clipping

step([t0])

Two parameter step model model.

transit(t0, duration[, depth])

A simple transit model

where(*args, **kwargs)

Attributes

X

aperture

comparison_raw_fluxes

detrended_diff_flux

diff_error

diff_flux

has_diff

raw_error

raw_flux

target

trend

x