引力波的绘制

数据源:

• http://python123.io/dv/grawave.html
• http://python123.io/dv/H1_Strain.wav
• http://python123.io/dv/L1_Strain.wav
• http://python123.io/dv/wf_template.txt

产生时间序列：

从配置文档中读取时间相关数据

读取应变数据：

绘制H1 Strain：

使用来自”H1”探测器的数据作图

绘制L1 Strain & Template

显示并保存图像

# -*- coding: utf-8 -*-
import numpy as np
import matplotlib.pyplot as plt
from scipy.io import wavfile
 
rate_h, hstrain= wavfile.read(r"H1_Strain.wav","rb")
rate_l, lstrain= wavfile.read(r"L1_Strain.wav","rb")
#reftime, ref_H1 = np.genfromtxt('GW150914_4_NR_waveform_template.txt').transpose()
reftime, ref_H1 = np.genfromtxt('wf_template.txt').transpose() #使用python123.io下载文件
 
htime_interval = 1/rate_h
ltime_interval = 1/rate_l
fig = plt.figure(figsize=(12, 6))
 
# 丢失信号起始点
htime_len = hstrain.shape[0]/rate_h
htime = np.arange(-htime_len/2, htime_len/2 , htime_interval)
plth = fig.add_subplot(221)
plth.plot(htime, hstrain, 'y')
plth.set_xlabel('Time (seconds)')
plth.set_ylabel('H1 Strain')
plth.set_title('H1 Strain')
 
ltime_len = lstrain.shape[0]/rate_l
ltime = np.arange(-ltime_len/2, ltime_len/2 , ltime_interval)
pltl = fig.add_subplot(222)
pltl.plot(ltime, lstrain, 'g')
pltl.set_xlabel('Time (seconds)')
pltl.set_ylabel('L1 Strain')
pltl.set_title('L1 Strain')
 
pltref = fig.add_subplot(212)
pltref.plot(reftime, ref_H1)
pltref.set_xlabel('Time (seconds)')
pltref.set_ylabel('Template Strain')
pltref.set_title('Template')
fig.tight_layout()
 
plt.savefig("Gravitational_Waves_Original.png")
plt.show()
plt.close(fig)