Пример #1
0
    def testOrderMerged(self):
        """Merge order-merged hermes spectra NO vrad (Feige 66)"""
        temp = '/STER/mercator/hermes/%s/reduced/%s_HRF_OBJ_ext_CosmicsRemoved_log_merged_c.fits'
        objlist = [('20090619', '237033'), ('20090701', '240226'),
                   ('20090712', '241334'), ('20090712', '241335'),
                   ('20100107', '00268012'), ('20100120', '00272619'),
                   ('20100120', '00272620'), ('20100203', '00273577'),
                   ('20100203', '00273578'), ('20100303', '00275671'),
                   ('20100303', '00275672'), ('20100410', '00281505'),
                   ('20100519', '00284636'), ('20110222', '00334558'),
                   ('20110319', '00336547'), ('20110324', '00339848'),
                   ('20110401', '00342273'), ('20110402', '00342363'),
                   ('20110406', '00342699'), ('20110408', '00342896'),
                   ('20120107', '00391289'), ('20120110', '00391633'),
                   ('20120116', '00392217'), ('20120127', '00393151'),
                   ('20120209', '00394175'), ('20120330', '00399697'),
                   ('20120420', '00404769'), ('20120506', '00406531'),
                   ('20130106', '00445346'), ('20130215', '00452556'),
                   ('20130406', '00457718'), ('20130530', '00474128')]
        mergeList = [temp % o for o in objlist]

        #wtotal, f = fits.read_spectrum(mergeList[0])
        #ftotal = np.zeros_like(f)
        #for ifile in mergeList:
        #w, f = fits.read_spectrum(ifile)
        #ftotal += np.interp(wtotal,w,f)
        #pl.plot(wtotal, ftotal)

        wave, flux, header = hermes.merge_hermes_spectra(mergeList,
                                                         sigma=3,
                                                         offset=None,
                                                         base='average')
        #pl.plot(wave, flux)
        #pl.show()

        #-- Test that cosmics are removed
        self.assertNoCosmic(wave, flux, (4362.7, 4362.9))
        self.assertNoCosmic(wave, flux, (4974.2, 4974.4))
        self.assertNoCosmic(wave, flux, (5656.1, 5656.3))
        self.assertNoCosmic(wave, flux, (6161.7, 6161.9))
        self.assertNoCosmic(wave, flux, (6166.5, 6166.8), sigma=4)
        self.assertNoCosmic(wave, flux, (6200.2, 6200.5))
        self.assertNoCosmic(wave, flux, (6546.9, 6547.1))
        self.assertNoCosmic(wave, flux, (7996.8, 7997.0))
        self.assertNoCosmic(wave, flux, (8001.7, 8001.9))

        #-- Test that absorption lines are still there
        self.assertAbsorptionLine(wave,
                                  flux, (3933.4, 3933.7), (3934.1, 3934.9),
                                  depth=0.6)
        self.assertAbsorptionLine(wave,
                                  flux, (5159.8, 5160.3), (5157.8, 5159.4),
                                  depth=0.8)
        self.assertAbsorptionLine(wave,
                                  flux, (5874.9, 5876.2), (5870.7, 5872.9),
                                  depth=0.6)
        self.assertAbsorptionLine(wave,
                                  flux, (6001.7, 6002.0), (6000., 6001.45),
                                  depth=0.95)
 def testOrderMergedVrad(self):
     """Merge order-merged hermes spectra with vrad (KIC 9540226)"""
     
     pre = '/STER/mercator/hermes/'
     post_merged = '_HRF_OBJ_ext_CosmicsRemoved_log_merged_c.fits'
     #
     
     objlist = ['20120730/reduced/00415609',
                 '20120808/reduced/00416266',
                 '20120808/reduced/00416267',
                 '20120818/reduced/00417309',
                 '20120818/reduced/00417310',
                 '20120905/reduced/00419141',
                 '20120911/reduced/00419682',
                 '20120913/reduced/00419913',
                 '20120913/reduced/00419914',
                 '20120924/reduced/00421148']
     mergeList = [pre+o+post_merged for o in objlist]
     
     vrad = [-21.190, -17.473, -17.528, -11.621, -11.613, 5.974, 13.297, 15.793, 15.810, 18.739]
     
     #wtotal, f = fits.read_spectrum(mergeList[0])
     #ftotal = np.zeros_like(f)
     #for ifile in mergeList:
         #w, f = fits.read_spectrum(ifile)
         #ftotal += np.interp(wtotal,w,f) 
     #pl.plot(wtotal, ftotal)
     
     wave, flux, header = hermes.merge_hermes_spectra(mergeList, vrads=vrad, sigma=1.5,
                                                      offset='none', base='average', runs=3)
     #pl.plot(wave, flux)
     #pl.show()
     
     #-- Test that cosmics are removed
     self.assertNoCosmic(wave, flux, (4060.1, 4060.3))
     self.assertNoCosmic(wave, flux, (4212.3, 4212.4))
     self.assertNoCosmic(wave, flux, (4320.0, 4320.2), sigma=2)
     self.assertNoCosmic(wave, flux, (7056.5, 7056.7))
     self.assertNoCosmic(wave, flux, (8344.1, 8344.8))
     
     #-- Test that absorption lines are still there
     self.assertAbsorptionLine(wave, flux, (5892.5, 5893.0), (5893.4, 5894.8), depth=0.6)
     self.assertAbsorptionLine(wave, flux, (7326.0, 7326.3), (7324.8, 7325.8), depth=0.5)
     
     #-- Test that the shift is correct
     f1 = flux[(wave>5883.71) & (wave<5883.94)]
     f2 = flux[(wave>5883.32) & (wave<5883.68)]
     self.assertTrue(np.min(f1) < np.min(f2), msg='Spectra NOT correctly shifted')
     f1 = flux[(wave>5914.00) & (wave<5914.30)]
     f2 = flux[(wave>5913.69) & (wave<5914.00)]
     self.assertTrue(np.min(f1) < np.min(f2), msg='Spectra NOT correctly shifted')
Пример #3
0
 def testOrderMergedVrad(self):
     """Merge order-merged hermes spectra with vrad (KIC 9540226)"""
     
     pre = '/STER/mercator/hermes/'
     post_merged = '_HRF_OBJ_ext_CosmicsRemoved_log_merged_c.fits'
     #
     
     objlist = ['20120730/reduced/00415609',
                 '20120808/reduced/00416266',
                 '20120808/reduced/00416267',
                 '20120818/reduced/00417309',
                 '20120818/reduced/00417310',
                 '20120905/reduced/00419141',
                 '20120911/reduced/00419682',
                 '20120913/reduced/00419913',
                 '20120913/reduced/00419914',
                 '20120924/reduced/00421148']
     mergeList = [pre+o+post_merged for o in objlist]
     
     vrad = [-21.190, -17.473, -17.528, -11.621, -11.613, 5.974, 13.297, 15.793, 15.810, 18.739]
     
     #wtotal, f = fits.read_spectrum(mergeList[0])
     #ftotal = np.zeros_like(f)
     #for ifile in mergeList:
         #w, f = fits.read_spectrum(ifile)
         #ftotal += np.interp(wtotal,w,f) 
     #pl.plot(wtotal, ftotal)
     
     wave, flux, header = hermes.merge_hermes_spectra(mergeList, vrads=vrad, sigma=1.5,
                                                      offset='none', base='average', runs=3)
     #pl.plot(wave, flux)
     #pl.show()
     
     #-- Test that cosmics are removed
     self.assertNoCosmic(wave, flux, (4060.1, 4060.3))
     self.assertNoCosmic(wave, flux, (4212.3, 4212.4))
     self.assertNoCosmic(wave, flux, (4320.0, 4320.2), sigma=2)
     self.assertNoCosmic(wave, flux, (7056.5, 7056.7))
     self.assertNoCosmic(wave, flux, (8344.1, 8344.8))
     
     #-- Test that absorption lines are still there
     self.assertAbsorptionLine(wave, flux, (5892.5, 5893.0), (5893.4, 5894.8), depth=0.6)
     self.assertAbsorptionLine(wave, flux, (7326.0, 7326.3), (7324.8, 7325.8), depth=0.5)
     
     #-- Test that the shift is correct
     f1 = flux[(wave>5883.71) & (wave<5883.94)]
     f2 = flux[(wave>5883.32) & (wave<5883.68)]
     self.assertTrue(np.min(f1) < np.min(f2), msg='Spectra NOT correctly shifted')
     f1 = flux[(wave>5914.00) & (wave<5914.30)]
     f2 = flux[(wave>5913.69) & (wave<5914.00)]
     self.assertTrue(np.min(f1) < np.min(f2), msg='Spectra NOT correctly shifted')
 def testOrderMerged(self):
     """Merge order-merged hermes spectra NO vrad (Feige 66)"""
     temp = '/STER/mercator/hermes/%s/reduced/%s_HRF_OBJ_ext_CosmicsRemoved_log_merged_c.fits'
     objlist = [('20090619','237033'), ('20090701','240226'),
                ('20090712','241334'), ('20090712','241335'),
                ('20100107','00268012'), ('20100120','00272619'),
                ('20100120','00272620'), ('20100203','00273577'),
                ('20100203','00273578'), ('20100303','00275671'),
                ('20100303','00275672'), ('20100410','00281505'),
                ('20100519','00284636'), ('20110222','00334558'),
                ('20110319','00336547'), ('20110324','00339848'),
                ('20110401','00342273'), ('20110402','00342363'),
                ('20110406','00342699'), ('20110408','00342896'),
                ('20120107','00391289'), ('20120110','00391633'),
                ('20120116','00392217'), ('20120127','00393151'),
                ('20120209','00394175'), ('20120330','00399697'),
                ('20120420','00404769'), ('20120506','00406531'),
                ('20130106','00445346'), ('20130215','00452556'),
                ('20130406','00457718'), ('20130530','00474128')]
     mergeList = [temp%o for o in objlist]
     
     #wtotal, f = fits.read_spectrum(mergeList[0])
     #ftotal = np.zeros_like(f)
     #for ifile in mergeList:
         #w, f = fits.read_spectrum(ifile)
         #ftotal += np.interp(wtotal,w,f) 
     #pl.plot(wtotal, ftotal)
     
     wave, flux, header = hermes.merge_hermes_spectra(mergeList, sigma=3, offset=None,
                                                      base='average')
     #pl.plot(wave, flux)
     #pl.show()
     
     #-- Test that cosmics are removed
     self.assertNoCosmic(wave, flux, (4362.7, 4362.9))
     self.assertNoCosmic(wave, flux, (4974.2, 4974.4))
     self.assertNoCosmic(wave, flux, (5656.1, 5656.3))
     self.assertNoCosmic(wave, flux, (6161.7, 6161.9))
     self.assertNoCosmic(wave, flux, (6166.5, 6166.8), sigma=4)
     self.assertNoCosmic(wave, flux, (6200.2, 6200.5))
     self.assertNoCosmic(wave, flux, (6546.9, 6547.1))
     self.assertNoCosmic(wave, flux, (7996.8, 7997.0))
     self.assertNoCosmic(wave, flux, (8001.7, 8001.9))
     
     
     #-- Test that absorption lines are still there
     self.assertAbsorptionLine(wave, flux, (3933.4, 3933.7), (3934.1, 3934.9), depth=0.6)
     self.assertAbsorptionLine(wave, flux, (5159.8, 5160.3), (5157.8, 5159.4), depth=0.8)
     self.assertAbsorptionLine(wave, flux, (5874.9, 5876.2), (5870.7, 5872.9), depth=0.6)
     self.assertAbsorptionLine(wave, flux, (6001.7, 6002.0), (6000., 6001.45), depth=0.95)