#!/usr/bin/env python2 import momxml import ephem import sys # 17:29 - 06:10 cal_duration_s = 5*60 source_catalogue = momxml.SourceCatalogue() mid_day = momxml.ephem.Date(sys.argv[1]) start_date = momxml.ephem.Date(momxml.next_sunset(mid_day) + 20*momxml.ephem.minute) end_date = momxml.ephem.Date(momxml.next_sunrise(start_date) - 20*momxml.ephem.minute) total_duration_s = (end_date - start_date)*24*3600.0 target_duration_s = total_duration_s - 2*cal_duration_s - 2*61.0 target = momxml.simbad('NCP') target.name = 'NCP-%4d-%02d-%02d' % start_date.tuple()[0:3] pre_cal = source_catalogue.cal_source(start_date, 'HBA') post_cal = source_catalogue.cal_source(start_date+(target_duration_s+2*cal_duration_s)*ephem.second, 'HBA') cal_fields = [momxml.simbad('3C61.1')] ra_3c61_1 = cal_fields[0].ra_angle dec_3c61_1 = cal_fields[0].dec_angle ra_inc = momxml.Angle(deg = 60.0) antenna_set = 'HBA_DUAL_INNER' band = 'HBA_LOW' stations = momxml.station_list('all', exclude = [])
import momxml import ephem import sys # 17:29 - 06:10 cal_duration_s = 5 * 60 source_catalogue = momxml.SourceCatalogue() mid_day = momxml.ephem.Date(sys.argv[1]) start_date = momxml.ephem.Date( momxml.next_sunset(mid_day) + 20 * momxml.ephem.minute) end_date = momxml.ephem.Date( momxml.next_sunrise(mid_day) - 20 * momxml.ephem.minute) total_duration_s = (end_date - start_date) * 24 * 3600.0 target_duration_s = total_duration_s - 2 * cal_duration_s - 2 * 61.0 target = momxml.simbad('NCP') target.name = 'NCP-%4d-%02d-%02d' % start_date.tuple()[0:3] pre_cal = source_catalogue.cal_source(start_date, 'HBA') post_cal = source_catalogue.cal_source( start_date + (target_duration_s + 2 * cal_duration_s) * ephem.second, 'HBA') cal_fields = [momxml.simbad('3C61.1')] ra_3c61_1 = cal_fields[0].ra_angle dec_3c61_1 = cal_fields[0].dec_angle ra_inc = momxml.Angle(deg=60.0) antenna_set = 'HBA_DUAL_INNER'
#!/usr/bin/env python2 import momxml import ephem import sys # 17:29 - 06:10 cal_duration_s = 5 * 60 source_catalogue = momxml.SourceCatalogue() mid_day = momxml.ephem.Date(sys.argv[1]) start_date = momxml.ephem.Date( momxml.next_sunset(mid_day) + 20 * momxml.ephem.minute) end_date = momxml.ephem.Date( momxml.next_sunrise(start_date) - 20 * momxml.ephem.minute) total_duration_s = (end_date - start_date) * 24 * 3600.0 target_duration_s = total_duration_s - 2 * cal_duration_s - 2 * 61.0 target = momxml.simbad('NCP') target.name = 'NCP-%4d-%02d-%02d' % start_date.tuple()[0:3] pre_cal = source_catalogue.cal_source(start_date, 'HBA') post_cal = source_catalogue.cal_source( start_date + (target_duration_s + 2 * cal_duration_s) * ephem.second, 'HBA') cal_fields = [momxml.simbad('3C61.1')] ra_3c61_1 = cal_fields[0].ra_angle dec_3c61_1 = cal_fields[0].dec_angle ra_inc = momxml.Angle(deg=60.0)
import momxml import ephem import sys # 17:29 - 06:10 cal_duration_s = 5*60 source_catalogue = momxml.SourceCatalogue() mid_day = momxml.ephem.Date(sys.argv[1]) start_date = momxml.ephem.Date(momxml.next_sunset(mid_day) + 20*momxml.ephem.minute) end_date = momxml.ephem.Date(momxml.next_sunrise(mid_day) - 20*momxml.ephem.minute) total_duration_s = (end_date - start_date)*24*3600.0 target_duration_s = total_duration_s - 2*cal_duration_s - 2*61.0 target = momxml.simbad('NCP') target.name = 'NCP-%4d-%02d-%02d' % start_date.tuple()[0:3] pre_cal = source_catalogue.cal_source(start_date, 'HBA') post_cal = source_catalogue.cal_source(start_date+(target_duration_s+2*cal_duration_s)*ephem.second, 'HBA') cal_fields = [momxml.simbad('3C61.1')] ra_3c61_1 = cal_fields[0].ra_angle dec_3c61_1 = cal_fields[0].dec_angle ra_inc = momxml.Angle(deg = 60.0) antenna_set = 'HBA_DUAL_INNER' band = 'HBA_LOW' stations = momxml.station_list('nl', exclude = []) int_s = 2.0 chan = 64
#!/usr/bin/env python import momxml import ephem import sys from numpy import array # 17:29 - 06:10 cal_duration_s = 5*60 source_catalogue = momxml.SourceCatalogue() mid_day = momxml.ephem.Date(sys.argv[1]) start_date = momxml.ephem.Date(momxml.next_sunset(mid_day) + 20*momxml.ephem.minute) end_date = momxml.ephem.Date(momxml.next_sunrise(start_date) - 20*momxml.ephem.minute) total_duration_s = (end_date - start_date)*24*3600.0 target_duration_s = total_duration_s - 2*cal_duration_s - 2*61.0 target = momxml.simbad('NCP') target.name = 'NCP-%4d-%02d-%02d' % start_date.tuple()[0:3] pre_cal = source_catalogue.cal_source(start_date, 'HBA') post_cal = source_catalogue.cal_source(start_date+(target_duration_s+2*cal_duration_s)*ephem.second, 'HBA') cal_fields = [momxml.simbad('3C61.1')] ra_3c61_1 = cal_fields[0].ra_angle dec_3c61_1 = cal_fields[0].dec_angle ra_inc = momxml.Angle(deg = 60.0) ra_offset = momxml.Angle(deg=30.0) antenna_set = 'HBA_DUAL_INNER'