J/A+A/578/A22 Mrk421 in March 2010 (Aleksic+, 2015)
Unprecedented study of the broadband emission of Mrk 421 during flaring
activity in March 2010.
Aleksic J., Ansoldi S., Antonelli L.A., Antoranz P., Babic A., Bangale P.,
de Almeida U.Barres , Barrio J.A., Gonzalez J.Becerra , Bednarek W.,
Bernardini E., Biasuzzi B., Biland A., Blanch O., Boller A., Bonnefoy S.,
Bonnoli G., Borracci F., Bretz T., Carmona E., Carosi A., Colin P.,
Colombo E., Contreras J.L., Cortina J., Covino S., Da Vela P., Dazzi F.,
De Angelis A., De Caneva G., De Lotto B., de Ona Wilhelmi E.,
Delgado Mendez C., Dominis Prester D., Dorner D., Doro M., Einecke S.,
Eisenacher D., Elsaesser D., Fonseca M.V., Font L., Frantzen K., Fruck C.,
Galindo D., Garcia Lopez R.J., Garczarczyk M., Garrido Terrats D., Gaug M.,
Godinovic N., Gonzalez Munoz A., Gozzini S.R., Hadasch D., Hanabata Y.,
Hayashida M., Herrera J., Hildebrand D., Hose J., Hrupec D., Hughes G.,
Idec W., Kadenius V., Kellermann H., Knoetig M.L., Kodani K., Konno Y.,
Krause J., Kubo H., Kushida J., La Barbera A., Lelas D., Lewandowska N.,
Lindfors E., Lombardi S., Lopez M., Lopez-Coto R., Lopez-Oramas A.,
Lorenz E., Lozano I., Makariev M., Mallot K., Maneva G., Mankuzhiyil N.,
Mannheim K., Maraschi L., Marcote B., Mariotti M., Martinez M., Mazin D.,
Menzel U., Miranda J.M., Mirzoyan R., Moralejo A., Munar-Adrover P.,
Nakajima D., Niedzwiecki A., Nilsson K., Nishijima K., Noda K., Orito R.,
Overkemping A., Paiano S., Palatiello M., Paneque D., Paoletti R.,
Paredes J.M., Paredes-Fortuny X., Persic M., Prada Moroni P.G., Prandini E.,
Puljak I., Reinthal R., Rhode W., Ribo M., Rico J., Rodriguez Garcia J.,
Rugamer S., Saito T., Saito K., Satalecka K., Scalzotto V., Scapin V.,
Schultz C., Schweizer T., Sun S., Shore S.N., Sillanpaa A., Sitarek J.,
Snidaric I., Sobczynska D., Spanier F., Stamatescu V., Stamerra A.,
Steinbring T., Steinke B., Storz J., Strzys M., Takalo L., Takami H.,
Tavecchio F., Temnikov P., Terzic T., Tescaro D., Teshima M., Thaele J.,
Tibolla O., Torres D.F., Toyama T., Treves A., Uellenbeck M., Vogler P.,
Zanin R., (The MAGIC Collaboration),
Archambault S., Archer A., Beilicke M., Benbow W., Berger K., Bird R.,
Biteau J., Buckley J.H., Bugaev V., Cerruti M., Chen X., Ciupik L.,
Collins-Hughes E., Cui W., Eisch J.D., Falcone A., Feng Q., Finley J.P.,
Fortin P., Fortson L., Furniss A., Galante N., Gillanders G.H., Griffin S.,
Gyuk G., Hakansson N., Holder J., Johnson C.A., Kaaret P., Kar P.,
Kertzman M., Kieda D., Lang M.J., McArthur S., McCann A., Meagher K.,
Millis J., Moriarty P., Ong R.A., Otte A.N., Perkins J.S., Pichel A.,
Pohl M., Popkow A., Prokoph H., Pueschel E., Ragan K., Reyes L.C.,
Reynolds P.T., Richards G.T., Roache E., Rovero A.C., Sembroski G.H.,
Shahinyan K., Staszak D., Telezhinsky I., Tucci J.V., Tyler J., Varlotta A.,
Wakely S.P., Welsing R., Wilhelm A., Williams D.A.,
(The VERITAS Collaboration),
Buson S., Finke J., Villata M., Raiteri C., Aller H.D., Aller M.F.,
Cesarini A., Chen W.P., Gurwell M.A., Jorstad S.G., Koptelova E.,
Kurtanidze O.M., Laehteenmaeki A., Larionov V.M., Larionova E.G., Lin H.C.,
Moody J.W., Morozova D.A., Marscher A.P., Max-Moerbeck W.,
Nikolashvili M.G., Perri M., Readhead A.C.S., Richards J.L., Ros J.A.,
Sadun A.C., Sakamoto T., Smith P.S., Tornikoski M., Troitsky I.S.,
Wehrle A.E., (External Collaborators)
<Astron. Astrophys. 578, A22 (2015)>
=2015A&A...578A..22A 2015A&A...578A..22A (SIMBAD/NED BibCode)
ADC_Keywords: Galaxies, Markarian ; Galaxies, spectra ; Active gal. nuclei ;
BL Lac objects ; Gamma rays ; Spectrophotometry ; Models
Keywords: radiation mechanisms: non-thermal - galaxies: active -
BL Lacertae objects: individual: Mrk 421 - gamma rays: galaxies
Abstract:
A flare from the TeV blazar Mrk 421, occurring in March 2010, was
observed for 13 consecutive days from radio to very high energy (VHE;
E>100GeV) gamma-rays with MAGIC, VERITAS, Whipple, FermiLAT, MAXI,
RXTE, Swift, GASP-WEBT, and several optical and radio telescopes. We
model the day-scale SEDs with one-zone and two-zone synchrotron
self-Compton (SSC) models, investigate the physical parameters, and
evaluate whether the observed broadband SED variability can be
associated to variations in the relativistic particle population. Flux
variability was remarkable in the X-ray and VHE bands while it was
minor or not significant in the other bands. The one-zone SSC model
can describe reasonably well the SED of each day for the 13
consecutive days. This flaring activity is also very well described by
a two-zone SSC model, where one zone is responsible for the quiescent
emission while the other smaller zone, which is spatially separated
from the first one, contributes to the daily-variable emission
occurring in X-rays and VHE gamma-rays. Both the one-zone SSC and the
two-zone SSC models can describe the daily SEDs via the variation of
only four or five model parameters, under the hypothesis that the
variability is associated mostly to the underlying particle
population. This shows that the particle acceleration and cooling
mechanism producing the radiating particles could be the main one
responsible for the broadband SED variations during the flaring
episodes in blazars. The two-zone SSC model provides a better
agreement to the observed SED at the narrow peaks of the low- and
high-energy bumps during the highest activity, although the reported
one-zone SSC model could be further improved by the variation of the
parameters related to the emitting region itself (δ, B and R),
in addition to the parameters related to the particle population.
Description:
I. The multi-wavelength light curves (LCs) of Mrk 421 between
MJD 55264 and 55278, from VHE to radio (the data in Fig. 1)
are given in 32 files (INSTRUMENT_BAND.dat)
II. The day-by-day broadband spectral energy distributions (SEDs)
between MJD 55264 and 55278 (the data in Figs. 7,8a-9f,12a-13f)
are given in 13 files (55265-55277.dat)
Objects:
--------------------------------------------------
RA (2000) DE Designation(s)
--------------------------------------------------
11 04 27.31 +38 12 31.8 Mrk 421 = LEDA 33452
--------------------------------------------------
File Summary:
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FileName Lrecl Records Explanations
--------------------------------------------------------------------------------
ReadMe 80 . This file
asm.dat 54 14 Light Curve from RXTE-ASM 2-10keV
fluxes.dat 73 101 Light Curve from MAGIC, VERITAS, Whipple, Fermi-LAT,
Swift-BAT, MAXI, Swift-XRT and RXTE-PCA
fdens1.dat 70 121 Light Curve from Swift-UVOT, Bradford, ROVOR,
NMSkies, GASP and GRT
evpa.dat 68 11 Light Curve from Steward, St Petersburg and Crimean
(EVPA)
pol.dat 68 11 Light Curve from Steward, St Petersburg and Crimean
(polarization degree)
fdens2.dat 70 7 Light Curve from SMA, Metsahovi, OVRO and UMRAO
55265.dat 74 58 SED on MJD 55265
55266.dat 74 52 SED on MJD 55266
55267.dat 74 53 SED on MJD 55267
55268.dat 74 56 SED on MJD 55268
55269.dat 74 58 SED on MJD 55269
55270.dat 74 57 SED on MJD 55270
55271.dat 74 40 SED on MJD 55271
55272.dat 74 50 SED on MJD 55272
55273.dat 74 45 SED on MJD 55273
55274.dat 74 53 SED on MJD 55274
55275.dat 74 43 SED on MJD 55275
55276.dat 74 46 SED on MJD 55276
55277.dat 74 49 SED on MJD 55277
--------------------------------------------------------------------------------
See also:
J/A+A/545/A117 : Monitoring of Mrk 421 at 15 and 24 GHz (Lico+, 2012)
J/A+A/559/A75 : 43GHz observation of the blazar Mrk 421 (Blasi+, 2013)
Byte-by-byte Description of file: asm.dat
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Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 12 E12.7 d Time Time in MJD
17- 25 E9.4 ct/s CR Count rate
30- 41 E12.7 d e_Time [0.5] Error of time
46- 54 E9.4 ct/s e_CR Error of count rate
--------------------------------------------------------------------------------
Byte-by-byte Description of file: fluxes.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 9 A9 --- Inst Instrument (1)
11- 18 A8 --- Band Observed band (1)
20- 31 E12.7 d Time Time in MJD
35- 44 E10.4 cm-2/s Flux Observed flux
49- 60 E12.7 d e_Time [0/1] Error of time
65- 73 E9.4 cm-2/s e_Flux Error of flux
--------------------------------------------------------------------------------
Note (1): MAGIC (>200GeV), VERITAS (>200GeV), Whipple (>200GeV),
Fermi-LAT (>300GeV), Swift-BAT (15-50keV), MAXI (4-10keV),
Swift-XRT (2-10keV and 0.3-2keV) and RXTE-PCA (2-10keV).
--------------------------------------------------------------------------------
Byte-by-byte Description of file: fdens1.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 10 A10 --- Inst Instrument (1)
12- 15 A4 --- Band Observed band (1)
17- 28 E12.7 d Time Time in MJD
33- 41 E9.4 mJy FluxD [8/22] Flux density
46- 57 E12.7 d e_Time [0/0.005] Error of time
62- 70 E9.4 mJy e_FluxD [0.1/3.2] Error of flux density
--------------------------------------------------------------------------------
Note (1): Swift-UVOT (UVM2, UVW1 and UVW2), Bradford (B), ROVOR (BVRI),
NMSkies (VR), GASP (R) and GRT (R)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: evpa.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 13 A13 --- Obs Observatory (1)
15- 26 E12.7 d Time Time in MJD
31- 39 E9.4 deg EVPA [110/132] Electric vector polarization angle
44- 55 E12.7 d e_Time [0] Error of time
60- 68 E9.4 deg e_EVPA [0.1/2.5] Error of EVPA
--------------------------------------------------------------------------------
Note (1): Crimean, St Petersburg and Steward.
--------------------------------------------------------------------------------
Byte-by-byte Description of file: pol.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 13 A13 --- Obs Observatory (1)
15- 26 E12.7 d Time Time in MJD
31- 39 E9.4 % Pol [3/7] Polarization degree
44- 55 E12.7 d e_Time [0] Error of time
60- 68 E9.4 % e_Pol [0.02/0.42] Error of polarization degree
--------------------------------------------------------------------------------
Note (1): Crimean, St Petersburg and Steward.
--------------------------------------------------------------------------------
Byte-by-byte Description of file: fdens2.dat
--------------------------------------------------------------------------------
Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 9 A9 --- Obs Observatory (1)
11- 15 F5.1 GHz Freq [14.5/225] Observed frequency (1)
17- 28 E12.7 d Time Time in MJD
33- 41 E9.4 Jy FluxD [0.2/0.5] Flux density at Freq
46- 57 E12.7 d e_Time [0/0] Error of time
62- 70 E9.4 Jy e_FluxD [0.01/0.07] Error of flux density
--------------------------------------------------------------------------------
Note (1): SMA (225GHz), Metsahovi (37GHz), OVRO (15GHz) and UMRAO (14.5GHz)
--------------------------------------------------------------------------------
Byte-by-byte Description of file: 552*.dat
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Bytes Format Units Label Explanations
--------------------------------------------------------------------------------
1- 9 E9.4 Hz Freq [1.4e+10/1.e+27] Frequency
14- 22 E9.4 Hz e_Freq Low error of frequency
27- 35 E9.4 Hz E_Freq High error of frequency
40- 48 E9.4 mW/m2 EFlux Energy flux
53- 61 E9.4 mW/m2 e_EFlux Low error of energy flux
66- 74 E9.4 mW/m2 E_EFlux High error of energy flux
--------------------------------------------------------------------------------
Acknowledgements:
Shangyu Sun, shangyu.sun.khh(at)googlemail.com
Max-Planck-Institut fur Physik, Germany
(End) Shangyu Sun [Max-Planck-Inst. Physik], Patricia Vannier [CDS] 23-Jan-2015