Public files needed for running strax on XENON data. This e.g. contains testing and dummy files.
Before if uploading any data please update the table below with a short description of the file and preferably a link to a wiki note where it is discussed.a
File-name | Short description | Used for | Link |
---|---|---|---|
elipe.npy |
1T electron livetimes | straxen |
|
filters_per_chan.npy |
1T pulse filters per channel | straxen 1T |
link |
pmt_positions_xenonnt.csv |
nT PMT positions | straxen 1T |
link |
remapped_channels_....csv |
(see link) | straxen nT |
link |
strax_test_data.tar |
Ancient strax test data | straxen |
|
strax_test_data_straxv0.9.tar |
Straxen test data | straxen |
|
strax_..._straxv1.1.0.tar |
Straxen test data | straxen |
|
to_pe.npy |
1T to pe per running | straxen 1T |
|
XENON1T_..._20171217_sr0.h5 |
SR0 NN | straxen 1T |
? |
XENON1T_..._20171217_sr1.h5 |
SR1 NN | straxen 1T |
? |
XENON1T_..._20171217_sr1_reformatted.json |
SR1 NN | straxen 1T |
? |
012882-raw_records-z7q2d2ye2t.tar |
Straxen automated testing | straxen |
Joran |
s1_aft_UNITY_xyz_XENONnT.json |
S1(x,y,z) AFT dummy map | straxen nT |
link |
s1_lce_UNITY_xyz_XENONnT.json |
S1(x,y,z) LCE dummy map | straxen nT |
|
s2_map_UNITY_xy_XENONnT.json |
S2(x,y) correction dummy map | straxen nT |
|
dummy_bayes_model.npz |
Bayes dummy modele file | straxen nT |
File-name | Short description | Used for | Link |
---|---|---|---|
170203_0850_00_small.npz |
wfsim |
||
ele_after_pulse.npy |
1T el. afterpulse template | wfsim |
|
fax_config.json |
wfsim conf placeholder | wfsim |
|
fax_config_1t.json |
wfsim 1T conf | wfsim |
|
mlp_model.h5 |
nT NN placeholder | straxen nT |
|
mlp_model.json |
nt NN placeholder | straxen nT |
|
placeholder_map.json |
? | ? |
|
x1t_noise_170203_0850_....npz |
1T Noise template | wfsim |
|
x1t_pmt_afterpulse_config.pkl.gz |
1T pmt afterpulse template | wfsim |
|
x1t_se_afterpulse_delaytime.pkl.gz |
1T single electron afterpulse | wfsim |
|
XENON1T_effective_diffusion_SR1.pkl |
1T diffusion model | wfsim |
|
XENON1T_FDC_SR1_data_dr....gz |
1T field distortion correction | wfsim |
|
XENON1T_s1_xyz_ly_kr8....json |
1T light-yield map | wfsim |
|
XENON1T_s1_xyz_patterns....gz |
1T iterpolation map | wfsim |
|
XENON1T_s2_xy_ly_SR1_v2.2.json |
1T S2 light-yield map | wfsim |
|
XENON1T_s2_xy_patterns_....gz |
1T pattern map | wfsim |
|
XENON1T_spe_distributions.csv |
1T single photonelectron distributions | wfsim |
git clone https://github.com/XENONnT/strax_auxiliary_files
cd strax_auxiliary_files
python setup.py develop
These are some examples of how to interact with the package.
Let's see how we can interact with the package. Below is an example of how we can open a simulation file.
import straxauxfiles
# Let's see what kind of simulation files we have
print(straxauxfiles.list_sim_files())
# Let's load the fax_config_nt and open it as a dictionary
config = straxauxfiles.get_sim_file('fax_config.json')
# We can now treat it as a dictionary
print(config.keys())
Let's see how we can interact with the package. Below is an example of how we can open a simulation file.
import straxauxfiles
# Let's see what kind of strax files we have
print(straxauxfiles.list_strax_files())
# Let's load the fax_config_nt and open it as a dictionary
print(straxauxfiles.get_strax_file('elife.npy')
Let's see how we can interact with the package. Below is an example of how we can open a simulation file.
import straxauxfiles
# Let's see what kind of files we have
print(straxauxfiles.list_aux_files())
# Let's make a a dictionary of the paths of each of the files.
my_files = {f: straxauxfiles.get_abspath(f) for f in straxauxfiles.list_aux_files()}
# Print the dictionary
print(my_files)