mcfacts.objects.agnobject.AGNDisruptedStar

class mcfacts.objects.agnobject.AGNDisruptedStar(id_num_star=array([], dtype=float64), id_num_bh=array([], dtype=float64), galaxy=array([], dtype=float64), orb_a_star=array([], dtype=float64), orb_a_bh=array([], dtype=float64), mass_star=array([], dtype=float64), mass_bh=array([], dtype=float64), gen_star=array([], dtype=float64), gen_bh=array([], dtype=float64), orb_inc_star=array([], dtype=float64), orb_inc_bh=array([], dtype=float64), orb_ecc_star=array([], dtype=float64), orb_ecc_bh=array([], dtype=float64), star_log_radius=array([], dtype=float64), time_sn=array([], dtype=float64), num_obj_disrupt=0)

Bases: AGNObject

Array of disrupted stars with BH parameters.

Creates an instance of AGNDisruptedStar.

Parameters:

• id_num_star (numpy array) – ID number of disrupted star

• id_num_bh (numpy array) – ID number of BH that interacted with star

• galaxy (numpy array) – galaxy (iteration)

• orb_a_star (numpy array) – orbital semi-major axis of star wrt SMBH in R_g

• orb_a_bh (numpy array) – orbital semi-major axis of BH wrt SMBH in R_g

• mass_star (numpy array) – mass of star in Msun

• mass_bh (numpy array) – mass of BH in Msun

• gen_star (numpy array) – generation of star

• gen_bh (numpy array) – generation of BH

• orb_inc_star (numpy array) – orbital inclination of star

• orb_inc_bh (numpy array) – orbital inclination of BH

• orb_ecc_star (numpy array) – orbital eccentricity of star wrt SMBH

• orb_ecc_bh (numpy array) – orbital eccentricity of BH wrt SMBH

• star_log_radius (numpy array) – Log radius of star in Rsun

• time_sn (numpy array) – the timestep of explosion

• num_obj_disrupt (int) – number of objects

__init__(id_num_star=array([], dtype=float64), id_num_bh=array([], dtype=float64), galaxy=array([], dtype=float64), orb_a_star=array([], dtype=float64), orb_a_bh=array([], dtype=float64), mass_star=array([], dtype=float64), mass_bh=array([], dtype=float64), gen_star=array([], dtype=float64), gen_bh=array([], dtype=float64), orb_inc_star=array([], dtype=float64), orb_inc_bh=array([], dtype=float64), orb_ecc_star=array([], dtype=float64), orb_ecc_bh=array([], dtype=float64), star_log_radius=array([], dtype=float64), time_sn=array([], dtype=float64), num_obj_disrupt=0)

Creates an instance of AGNDisruptedStar.

Parameters:

• id_num_star (numpy array) – ID number of disrupted star

• id_num_bh (numpy array) – ID number of BH that interacted with star

• galaxy (numpy array) – galaxy (iteration)

• orb_a_star (numpy array) – orbital semi-major axis of star wrt SMBH in R_g

• orb_a_bh (numpy array) – orbital semi-major axis of BH wrt SMBH in R_g

• mass_star (numpy array) – mass of star in Msun

• mass_bh (numpy array) – mass of BH in Msun

• gen_star (numpy array) – generation of star

• gen_bh (numpy array) – generation of BH

• orb_inc_star (numpy array) – orbital inclination of star

• orb_inc_bh (numpy array) – orbital inclination of BH

• orb_ecc_star (numpy array) – orbital eccentricity of star wrt SMBH

• orb_ecc_bh (numpy array) – orbital eccentricity of BH wrt SMBH

• star_log_radius (numpy array) – Log radius of star in Rsun

• time_sn (numpy array) – the timestep of explosion

• num_obj_disrupt (int) – number of objects

Methods

__init__([id_num_star, id_num_bh, galaxy, ...])	Creates an instance of AGNDisruptedStar.
add_objects([new_mass, new_spin, ...])	Append new objects to the AGNObject.
add_stars([new_id_num_star, new_id_num_bh, ...])	Add stars to the AGNMergedStar object
at_id_num(id_num[, attr])	Returns the attribute at the specified ID numbers
check_consistency()	Prints the size of each attribute to check that everything is consistent.
copy()	Creates a deep copy of the AGNObject
init_from_file([fname])	Reads in file from previous AGNObject.
keep_id_num(id_num_keep)	Filters AGNObject to only keep the objects at the specified ID numbers
keep_index(idx_keep)	Filters AGNObject to only keep the objects at the specified indices.
remove_id_num([id_num_remove])	Filters AGNObject to remove the objects at the specified ID numbers
remove_index([idx_remove])	Removes objects at specified indices.
return_params()	Gets list of parameters present in object.
return_record_array()	Returns a numpy dictionary of all attributes in the AGNObject
sort([sort_attr])	Sorts all attributes of the AGNObject by the passed attribute
to_txt([fname, cols, extra_header])	Loads AGNObject into temporary multi-dim numpy array and then uses np.savetxt to save to file.
unique_id_nums()	Checks that ID numbers are unique.

add_objects(new_mass=array([], dtype=float64), new_spin=array([], dtype=float64), new_spin_angle=array([], dtype=float64), new_orb_a=array([], dtype=float64), new_orb_inc=array([], dtype=float64), new_orb_ang_mom=array([], dtype=float64), new_orb_ecc=array([], dtype=float64), new_orb_arg_periapse=array([], dtype=float64), new_gen=array([], dtype=float64), new_galaxy=array([], dtype=float64), new_time_passed=array([], dtype=float64), new_id_num=array([], dtype=float64), obj_num=0)

Append new objects to the AGNObject. This method is not called directly, it is only called by the subclasses’ add methods.

Parameters:

• new_mass (numpy array) – masses to be added

• new_spin (numpy array) – spins to be added

• new_spin_angle (numpy array) – spin angles to be added

• new_orb_a (numpy array) – semi-major axes to be added

• new_orb_inc (numpy array) – orbital inclinations to be added

• new_orb_ang_mom (numpy array) – orbital angular momentum to be added

• new_orb_ecc (numpy array) – orbital eccentricities to be added

• new_orb_arg_periapse (numpy array) – orbital arguments of the periapse to be added

• new_gen (numpy array) – generations to be added

• new_galaxy (numpy array) – galaxy iteration to be added, set to -1 if not passed

• new_time_passed (numpy array) – time passed to be added, set to -1 if not passed

• new_id_num (numpy array,optional) – ID numbers to be added

• obj_num (int, optional) – Number of objects to be added.

add_stars(new_id_num_star=array([], dtype=float64), new_id_num_bh=array([], dtype=float64), new_galaxy=array([], dtype=float64), new_orb_a_star=array([], dtype=float64), new_orb_a_bh=array([], dtype=float64), new_mass_star=array([], dtype=float64), new_mass_bh=array([], dtype=float64), new_gen_star=array([], dtype=float64), new_gen_bh=array([], dtype=float64), new_orb_inc_star=array([], dtype=float64), new_orb_inc_bh=array([], dtype=float64), new_orb_ecc_star=array([], dtype=float64), new_orb_ecc_bh=array([], dtype=float64), new_star_log_radius=array([], dtype=float64), new_time_sn=array([], dtype=float64), num_obj_disrupt=0)

Add stars to the AGNMergedStar object

Parameters:

• new_galaxy (numpy array) – galaxy (iteration)

• new_id_num_star (numpy array) – ID number of disrupted star

• new_id_num_bh (numpy array) – ID number of BH that interacted with star

• new_orb_a_star (numpy array) – Semi-major axis of disrupted star wrt SMBH in R_g

• new_orb_a_bh (numpy array) – Semi-major axis of BH wrt SMBH in R_g

• new_mass_star (numpy array) – Mass [M_sun] of disrupted star

• new_mass_bh (numpy array) – Mass [M_sun] of BH

• new_gen_star (numpy array) – Generation of disrupted star

• new_gen_bh (numpy array) – Generation of BH

• new_orb_inc_star (numpy array) – Orbital inclination of star wrt SMBH

• new_orb_inc_bh (numpy array) – Orbital inclination of BH wrt SMBH

• new_orb_ecc_star (numpy array) – Orbital eccentricity of star wrt SMBH

• new_orb_ecc_bh (numpy array) – Orbital eccentricity of BH wrt SMBH

• new_star_log_radius (numpy array) – Log radius [R_sun] of star

• new_time_sn (numpy array) – Time of explosion

• num_obj_disrupt (int) – Number of objects

at_id_num(id_num, attr=None)

Returns the attribute at the specified ID numbers

Parameters:

• id_num (numpy array or float) – ID numbers of objects to return

• attr (str) – attribute to return

Returns:

val – specified attribute at specified ID numbers

Return type:

numpy array

check_consistency()

Prints the size of each attribute to check that everything is consistent. Raises an AttributeError if all arrays do not have the same length.

copy()

Creates a deep copy of the AGNObject

Parameters:

None

Returns:

copied_object – new copy of AGNObject with no references to original AGNObject

Return type:

AGNObject

init_from_file(fname=None)

Reads in file from previous AGNObject.

Not fully implemented. Would need to init AGNObject and then read from file?

Parameters:

fname (str) – file to read in

keep_id_num(id_num_keep)

Filters AGNObject to only keep the objects at the specified ID numbers

Parameters:

id_num_keep (numpy array) – ID numbers to keep, others are removed

keep_index(idx_keep)

Filters AGNObject to only keep the objects at the specified indices.

Parameters:

idx_keep (numpy array) – indices to keep, others are removed.

remove_id_num(id_num_remove=None)

Filters AGNObject to remove the objects at the specified ID numbers

Parameters:

id_num_keep (numpy array) – ID numbers to keep, others are removed

remove_index(idx_remove=None)

Removes objects at specified indices.

Parameters:

idx_remove (numpy array) – indices to remove

return_params()

Gets list of parameters present in object.

Parameters:

None

Returns:

parameters in object

Return type:

list

return_record_array()

Returns a numpy dictionary of all attributes in the AGNObject

Parameters:

None

Returns:

dat_out – dictionary array of all attributes in the AGNObject. Everything is written as a float.

Return type:

numpy dictionary

sort(sort_attr=None)

Sorts all attributes of the AGNObject by the passed attribute

Parameters:

sort_attr (AGNObject attribute array) – array to sort the AGNObject by

to_txt(fname=None, cols=None, extra_header=None)

Loads AGNObject into temporary multi-dim numpy array and then uses np.savetxt to save to file. Avoids the issue of pandas writing non-values as blanks instead of NaNs.

Parameters:

• fname (str) – filename including path

• cols (array of str) – array of header names to re-order or cut out columns, optional

• extra_header (str) – extra information to go a line above the column names, optional

unique_id_nums()

Checks that ID numbers are unique.