mirror of
https://gitlab.science.ru.nl/mthesis-edeboone/m-thesis-introduction.git
synced 2024-11-14 02:23:32 +01:00
Merge branch 'grid-power-multiple-clock-offsets' into main
This commit is contained in:
commit
b4b3aaf3e6
3 changed files with 226 additions and 2 deletions
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@ -27,7 +27,7 @@ findks:
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reconstruct:
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reconstruct:
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./da_reconstruction.py --no-show-plots --fig-dir=${FIG_DIR}
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./da_reconstruction.py --no-show-plots --fig-dir=${FIG_DIR}
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./db_longitudinal_figure.py --no-show-plots --fig-dir=${FIG_DIR}
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./db_longitudinal_figure.py --no-show-plots --fig-dir=${FIG_DIR}
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./dc_grid_power_time_fixes.py --no-show-plots --fig-dir=${FIG_DIR}
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dist-clean:
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dist-clean:
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rm -f ZH_airshower/antennas.hdf5
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rm -f ZH_airshower/antennas.hdf5
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rm -f ZH_airshower/clocks.csv
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rm -f ZH_airshower/clocks.csv
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@ -29,7 +29,7 @@ def read_antenna_clock_repair_offsets(antennas, mode='all', freq_name=None):
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# original timing
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# original timing
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if mode == 'orig':
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if mode == 'orig':
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_clock_delta = ant.attrs['clock_offset']
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_clock_delta = -1*ant.attrs['clock_offset']
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# phase
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# phase
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if mode in ['all', 'phases']:
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if mode in ['all', 'phases']:
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224
simulations/airshower_beacon_simulation/dc_grid_power_time_fixes.py
Executable file
224
simulations/airshower_beacon_simulation/dc_grid_power_time_fixes.py
Executable file
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@ -0,0 +1,224 @@
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#!/usr/bin/env python3
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# vim: fdm=indent ts=4
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"""
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Show how the Power changes when incorporating the
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various clock offsets by plotting on a grid.
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"""
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import matplotlib.pyplot as plt
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from mpl_toolkits.mplot3d import Axes3D # required for projection='3d' on old matplotliblib versions
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import numpy as np
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from os import path
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import joblib
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from earsim import REvent
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from atmocal import AtmoCal
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import aa_generate_beacon as beacon
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import lib
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from lib import rit
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if __name__ == "__main__":
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valid_cases = ['no_offset', 'repair_none', 'repair_phases', 'repair_all']
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import sys
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import os
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import matplotlib
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if os.name == 'posix' and "DISPLAY" not in os.environ:
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matplotlib.use('Agg')
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atm = AtmoCal()
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from scriptlib import MyArgumentParser
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parser = MyArgumentParser()
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group = parser.add_argument_group('figures')
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for case in valid_cases:
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group.add_argument('--'+case.replace('_','-'), dest='figures', action='append_const', const=case)
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args = parser.parse_args()
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wanted_cases = args.figures
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if not wanted_cases or 'all' in wanted_cases:
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wanted_cases = valid_cases
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fname = "ZH_airshower/mysim.sry"
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fig_dir = args.fig_dir
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show_plots = args.show_plots
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remove_beacon_from_traces = True
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apply_signal_window_from_max = True
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####
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fname_dir = path.dirname(fname)
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antennas_fname = path.join(fname_dir, beacon.antennas_fname)
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pickle_fname = path.join(fname_dir, 'res.pkl')
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tx_fname = path.join(fname_dir, beacon.tx_fname)
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# create fig_dir
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if fig_dir:
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os.makedirs(fig_dir, exist_ok=True)
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# Read in antennas from file
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_, tx, antennas = beacon.read_beacon_hdf5(antennas_fname)
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_, __, txdata = beacon.read_tx_file(tx_fname)
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# Read original REvent
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ev = REvent(fname)
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bak_ants = ev.antennas
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# .. patch in our antennas
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ev.antennas = antennas
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##
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## Setup grid
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##
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X = 400
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zgr = 0 #not exact
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dXref = atm.distance_to_slant_depth(np.deg2rad(ev.zenith),750,zgr+ev.core[2])
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scale2d = dXref*np.tan(np.deg2rad(2.))
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scale4d = dXref*np.tan(np.deg2rad(4.))
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scale02d = dXref*np.tan(np.deg2rad(0.2))
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Nx, Ny = 21, 21
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scales = {
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'scale2d': scale2d,
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'scale4d': scale4d,
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'scale02d': scale02d,
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}
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plot_titling = {
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'no_offset': "no clock offset",
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'repair_none': "unrepaired clock offset",
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'repair_phases': "phase resolved clock offsets repaired",
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'repair_all': "final measured clock offsets repaired"
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}
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# For now only implement using one freq_name
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freq_names = ev.antennas[0].beacon_info.keys()
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if len(freq_names) > 1:
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raise NotImplementedError
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freq_name = next(iter(freq_names))
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# Pre remove the beacon from the traces
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#
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# We need to remove it here, so we do not shoot ourselves in
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# the foot when changing to the various clock offsets.
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#
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# Note that the bandpass filter is applied only after E_AxB is
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# reconstructed so we have to manipulate the original traces.
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if remove_beacon_from_traces:
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tx_amps = txdata['amplitudes']
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tx_amps_sum = np.sum(tx_amps)
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for i, ant in enumerate(ev.antennas):
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beacon_phase = ant.beacon_info[freq_name]['beacon_phase']
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f = ant.beacon_info[freq_name]['freq']
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ampl_AxB = ant.beacon_info[freq_name]['amplitude']
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calc_beacon = lib.sine_beacon(f, ev.antennas[i].t, amplitude=ampl_AxB, phase=beacon_phase)
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# Split up contribution to the various polarisations
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for j, amp in enumerate(tx_amps):
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if j == 0:
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ev.antennas[i].Ex -= amp*(1/tx_amps_sum)*calc_beacon
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elif j == 1:
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ev.antennas[i].Ey -= amp*(1/tx_amps_sum)*calc_beacon
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elif j == 2:
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ev.antennas[i].Ez -= amp*(1/tx_amps_sum)*calc_beacon
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#
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ev.antennas[i].E_AxB -= calc_beacon
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# Slice the traces to a small part around the peak
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if apply_signal_window_from_max:
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N_pre, N_post = 250, 250
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for i, ant in enumerate(ev.antennas):
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max_idx = np.argmax(ant.E_AxB)
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low_idx = max(0, max_idx-N_pre)
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high_idx = min(len(ant.t), max_idx+N_post)
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ev.antennas[i].t = ant.t[low_idx:high_idx]
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ev.antennas[i].t_AxB = ant.t_AxB[low_idx:high_idx]
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ev.antennas[i].Ex = ant.Ex[low_idx:high_idx]
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ev.antennas[i].Ey = ant.Ey[low_idx:high_idx]
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ev.antennas[i].Ez = ant.Ez[low_idx:high_idx]
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ev.antennas[i].E_AxB = ant.E_AxB[low_idx:high_idx]
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# backup antenna times
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backup_antenna_t = [ ant.t for ant in ev.antennas ]
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backup_antenna_t_AxB = [ ant.t_AxB for ant in ev.antennas ]
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## Apply polarisation and bandpass filter
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rit.set_pol_and_bp(ev)
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with joblib.parallel_backend("loky"):
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for case in wanted_cases:
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print(f"Starting {case} figure")
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# Repair clock offsets with the measured offsets
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transl_modes = {'no_offset':'orig', 'repair_phases':'phases', 'repair_all':'all'}
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if case in transl_modes:
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transl_mode = transl_modes[case]
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measured_offsets = beacon.read_antenna_clock_repair_offsets(antennas, mode=transl_mode, freq_name=freq_name)
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else:
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measured_offsets = [0]*len(ev.antennas)
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for i, ant in enumerate(ev.antennas):
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total_clock_offset = measured_offsets[i]
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ev.antennas[i].t = backup_antenna_t[i] + total_clock_offset
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ev.antennas[i].t_AxB = backup_antenna_t_AxB[i] + total_clock_offset
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if i == 0:
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# Specifically compare the times
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print(bak_ants[i].t[0], ev.antennas[i].t[0], ev.antennas[i].t[0], ev.antennas[i].attrs['clock_offset'], measured_offsets[i])
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#
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# Plot overlapping traces at 0,0,0
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#
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if True:
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P, t_, a_, a_sum, t_sum = rit.pow_and_time([0,0,0], ev, dt=1)
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fig, axs = plt.subplots()
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axs.set_title("Antenna traces" + "\n" + plot_titling[case])
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axs.set_xlabel("Time [ns]")
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axs.set_ylabel("Amplitude [$\\mu V/m$]")
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a_max = [ np.amax(ant.E_AxB) for ant in ev.antennas ]
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power_sort_idx = np.argsort(a_max)
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N_plot = 30
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for i, idx in enumerate(power_sort_idx):
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if i > N_plot:
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break
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alpha = max(0.7, 1/len(a_))
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axs.plot(t_[idx], a_[idx], color='r', alpha=alpha)
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if fig_dir:
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fig.tight_layout()
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f'.trace_overlap.{case}.pdf'))
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f'.trace_overlap.{case}.png'), transparent=True)
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# Measure power on grid
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for scalename, scale in scales.items():
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wx, wy = scale, scale
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print(f"Starting grid measurement for figure {case} with {scalename}")
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xx, yy, p, maxp = rit.shower_plane_slice(ev, X=X, Nx=Nx, Ny=Nx, wx=wx, wy=wy)
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fig, axs = rit.slice_figure(ev, X, xx, yy, p, mode='sp')
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suptitle = fig._suptitle.get_text()
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fig.suptitle("")
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axs.set_title(suptitle +"\n" +plot_titling[case])
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#axs.set_aspect('equal', 'datalim')
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if fig_dir:
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fig.tight_layout()
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fig.savefig(path.join(fig_dir, path.basename(__file__) + f'.X{X}.{case}.{scalename}.pdf'))
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