# region Description import sunpy.data.sample import sunpy.map aia = sunpy.map.Map(sunpy.data.sample.AIA_171_IMAGE) aia.peek() # endregion # region Description import numpy as np import sunpy.data.sample from sunpy.lightcurve import LightCurve times = np.arange(1000) * 2.0 signal = np.sin(np.arange(1000) * 0.02) + np.random.random(1000) light_curve = LightCurve.create({"signal": signal}, index=times) light_curve.peek() # endregion # region Description import matplotlib.pyplot as plt import sunpy.spectra plt.ion import sunpy.data.sample from sunpy.spectra.sources.callisto import CallistoSpectrogram image = CallistoSpectrogram.read(sunpy.data.sample.CALLISTO_IMAGE) image.peek() # endregion # region Description import sunpy.map import matplotlib.pyplot as plt import sunpy.data.sample
# sunpy.data.download_sample_data(overwrite=False) import sunpy.data.sample aia = sunpy.map.Map(sunpy.data.sample.AIA_171_IMAGE) aia.submap([-5, 5] * u.arcsec, [-5, 5] * u.arcsec) import sunpy.map import matplotlib.pyplot as plt import sunpy.data.sample aia = sunpy.map.Map(sunpy.data.sample.AIA_171_IMAGE) fig = plt.figure() ax = plt.subplot(112) aia.plot() aia.draw_limb() aia.draw_grid() # plt.colorbar() aia.draw_limb() plt.show() import numpy as np import sunpy.data.sample from sunpy.lightcurve import LightCurve times = np.arange(1000) * 2.0 signal = np.sin(np.arange(1000) * 0.02) + np.random.random(1000) light_curve = LightCurve.create({"signal": signal}, index=times) light_curve.peek()