Recent Flare List (2021-): Difference between revisions
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| [http://ovsa.njit.edu/browser/?suntoday_date=2021-09-08 2021-09-08] || 17:24 || C8.3 || [[File:EOVSA_20210908_C8flare.png|thumb|center|100px|]] [http://ovsa.njit.edu/events/2021/EOVSA_20210908_C8flare.dat plot data] || Yes | | [http://ovsa.njit.edu/browser/?suntoday_date=2021-09-08 2021-09-08] || 17:24 || C8.3 || [[File:EOVSA_20210908_C8flare.png|thumb|center|100px|]] [http://ovsa.njit.edu/events/2021/EOVSA_20210908_C8flare.dat plot data] || Yes | ||
|- | |||
| [http://ovsa.njit.edu/browser/?suntoday_date=2021-09-23 2021-09-23] || 15:24 || M1.9 || [[File:EOVSA_20210923_M2flare.png|thumb|center|100px|]] [http://ovsa.njit.edu/events/2021/EOVSA_20210923_M2flare.dat plot data] || Yes | |||
|} | |} | ||
Revision as of 15:46, 24 September 2021
List of EOVSA Flares with Spectrogram Data
April 2021
Date | Time (UT) | GOES Class | Spectrogram | STIX Coverage |
---|---|---|---|---|
2021-04-17 | 16:46 | B9.0 | plot data | Yes |
2021-04-19 | 23:36 | M1.0 | plot data | No |
May 2021
Date | Time (UT) | GOES Class | Spectrogram | STIX Coverage |
---|---|---|---|---|
2021-05-05 | 22:30 | B5.0 | plot data | Yes |
2021-05-07 | 19:00 | M4.0 | plot data | Yes |
2021-05-08 | 18:30 | C9.0 | plot data | Yes |
2021-05-09 | 13:55 | C4.0 | plot data | Yes |
2021-05-17 | 19:05 | B5.0 | plot data | Yes |
2021-05-21 | 19:25 | C5.0 | plot data | Yes |
2021-05-22 | 16:10 | C1.0 | plot data | Yes |
2021-05-22 | 17:10 | M1.0 | plot data | Yes |
2021-05-22 | 21:30 | M1.4 | plot data | Yes |
2021-05-22 | 23:11 | C7.0 | plot data | Yes |
2021-05-23 | 17:00 | C2.0 | plot data | Yes |
2021-05-27 | 22:00 | C1.0 | plot data | No |
2021-05-27 | 23:10 | C7.0 | plot data | No |
2021-05-28 | 22:30 | C9.0 | plot data | No |
2021-05-28 | 22:30 | C9.0 | plot data | No |
July 2021
Date | Time (UT) | GOES Class | Spectrogram | STIX Coverage |
---|---|---|---|---|
2021-07-03 | 14:27 | X1.5 | plot data | No |
2021-07-06 | 19:15 | C1.1 | plot data | No |
2021-07-06 | 20:58 | C1.2 | plot data | No |
2021-07-06 | 21:49 | C1.1 | plot data | No |
2021-07-09 | 17:20 | C4.7 | plot data | No |
August 2021
Date | Time (UT) | GOES Class | Spectrogram | STIX Coverage |
---|---|---|---|---|
2021-08-20 | 15:55 | C3.0 | plot data | Yes |
2021-08-20 | 21:45 | C1.4 | plot data | Yes |
2021-08-21 | 18:41 | B3.9 | plot data | Yes |
2021-08-21 | 21:57 | B3.9 | plot data | Yes |
2021-08-21 | 22:29 | B4.7 | plot data | Yes |
2021-08-26 | 18:12 | C3.0 | plot data | Yes |
2021-08-26 | 23:20 | C3.9 | plot data | Yes |
2021-08-27 | 21:00 | C7.3 | plot data | Yes |
2021-08-29 | 17:21 | C2.9 | plot data | Yes (occulted?) |
2021-08-30 | 16:12 | C2.0 | plot data | Yes (occulted) |
2021-08-30 | 18:23 | B7.0 | plot data | Yes (occulted) |
2021-08-30 | 20:47 | B8.0 | plot data | Yes (occulted) |
2021-08-31 | 14:48 | B2.5 | plot data | No |
2021-08-31 | 19:08 | B7.1 | plot data | No |
September 2021
Date | Time (UT) | GOES Class | Spectrogram | STIX Coverage |
---|---|---|---|---|
2021-09-08 | 17:24 | C8.3 | plot data | Yes |
2021-09-23 | 15:24 | M1.9 | plot data | Yes |
Python code to read plot data file
from __future__ import print_function def rd_datfile(file): ''' Read EOVSA binary spectrogram file and return a dictionary with times in Julian Date, frequencies in GHz, and cross-power data in sfu. Return Keys: 'time' Numpy array of nt times in JD format 'fghz' Numpy array of nf frequencies in GHz 'data' Numpy array of size [nf, nt] containing cross-power data Returns empty dictionary ({}) if file size is not compatible with inferred dimensions ''' import struct import numpy as np def dims(file): # Determine time and frequency dimensions (assumes the file has fewer than 10000 times) f = open(file,'rb') tmp = f.read(83608) # max 10000 times and 451 frequencies f.close() nbytes = len(tmp) tdat = np.array(struct.unpack(str(int(nbytes/8))+'d',tmp[:nbytes])) nt = np.where(tdat < 2400000.)[0] nf = np.where(np.logical_or(tdat > 1e10, abs(tdat) < 1e-10))[0] - nt[0] return nt[0], nf[0] nt, nf = dims(file) f = open(file,'rb') tmp = f.read(nt*8) times = struct.unpack(str(nt)+'d',tmp) tmp = f.read(nf*8) fghz = struct.unpack(str(nf)+'d',tmp) tmp = f.read() f.close() if len(tmp) != nf*nt*4: print('File size is incorrect for nt=',nt,'and nf=',nf) return {} data = np.array(struct.unpack(str(nt*nf)+'f',tmp)).reshape(nf,nt) return {'time':times, 'fghz':fghz, 'data':data}
IDL code to read plot data file
function rd_datfile,file ; Read EOVSA binary spectrogram file and return a structure with times ; in Julian Date, frequencies in GHz, and cross-power data in sfu. ; ; Return tags: ; 'time' Array of nt times in JD format ; 'fghz' Array of nf frequencies in GHz ; 'data' Array of size [nf, nt] containing cross-power data ; ; Returns empty dictionary ({}) if file size is not compatible with inferred dimensions openr,/get_lun,lun,file tmp = dblarr(10451) readu,lun,tmp free_lun,lun nt = (where(tmp lt 2400000.))[0] nf = (where(tmp gt 1e10 or abs(tmp) lt 1e-10))[0] - nt times = dblarr(nt) fghz = dblarr(nf) data = fltarr(nt, nf) openr,/get_lun,lun,file readu,lun,times readu,lun,fghz readu,lun,data free_lun,lun data = create_struct('time',times,'fghz',fghz,'data',transpose(data)) return, data end