Detection of very high energy gamma-ray emission from the gravitationally lensed blazar QSO B0218+357 with the MAGIC telescopes

Context. QSO B0218+357 is a gravitationally lensed blazar located at a redshift of 0.944. The gravitational lensing splits the emitted radiation into two components that are spatially indistinguishable by gamma-ray instruments, but separated by a 10–12 day delay. In July 2014, QSO B0218+357 experien...

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Published in:Astronomy and astrophysics (Berlin) 2016-11, Vol.595, p.A98
Main Authors: Ahnen, M. L., Ansoldi, S., Antonelli, L. A., Antoranz, P., Arcaro, C., Banerjee, B., Bangale, P., Barres de Almeida, U., Barrio, J. A., Becerra González, J., Bednarek, W., Bonnefoy, S., Bonnoli, G., Borracci, F., Bretz, T., Buson, S., Carosi, A., Colin, P., Contreras, J. L., Cortina, J., Da Vela, P., De Lotto, B., Di Pierro, F., Doert, M., Dominis Prester, D., Dorner, D., Doro, M., Einecke, S., Eisenacher Glawion, D., Elsaesser, D., Engelkemeier, M., Fernández-Barral, A., Fidalgo, D., Fonseca, M. V., Frantzen, K., Fruck, C., Galindo, D., García López, R. J., Garrido Terrats, D., Gaug, M., Gora, D., Guberman, D., Herrera, J., Hose, J., Hughes, G., Idec, W., Kodani, K., Konno, Y., Kubo, H., Kushida, J., La Barbera, A., Lindfors, E., Longo, F., López, M., López-Coto, R., Majumdar, P., Makariev, M., Maneva, G., Mannheim, K., Mirzoyan, R., Nakajima, D., Neustroev, V., Nishijima, K., Noda, K., Nogués, L., Palacio, J., Paneque, D., Paoletti, R., Paredes, J. M., Pedaletti, G., Peresano, M., Perri, L., Persic, M., Poutanen, J., Prandini, E., Garcia, J. R., Reichardt, I., Rhode, W., Rico, J., Saito, T., Satalecka, K., Schroeder, S., Schweizer, T., Shore, S. N., Sillanpää, A., Snidaric, I., Sobczynska, D., Strzys, M., Surić, T., Takalo, L., Tavecchio, F., Terzić, T., Tescaro, D., Teshima, M., Toyama, T., Vanzo, G., Verguilov, V., Vovk, I., Will, M., Wu, M. H.
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Language:English
Subjects:
Arrivals
Astronomia de raigs gamma
Astronomy
ASTRONOMY AND ASTROPHYSICS
Blazars
Emission
Flares
Galaxies
galaxies: jets
Galàxies
Gamma ray astronomy
Gamma rays
gamma rays: galaxies
gravitational lensing: strong
quasars: individual: QSO B0218+357
radiation mechanisms: non-thermal
radiation mechnisms: non-thermal
Spectral energy distribution
Telescopes
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container_title Astronomy and astrophysics (Berlin)
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creator Ahnen, M. L.
Ansoldi, S.
Antonelli, L. A.
Antoranz, P.
Arcaro, C.
Banerjee, B.
Bangale, P.
Barres de Almeida, U.
Barrio, J. A.
Becerra González, J.
Bednarek, W.
Bonnefoy, S.
Bonnoli, G.
Borracci, F.
Bretz, T.
Buson, S.
Carosi, A.
Colin, P.
Contreras, J. L.
Cortina, J.
Da Vela, P.
De Lotto, B.
Di Pierro, F.
Doert, M.
Dominis Prester, D.
Dorner, D.
Doro, M.
Einecke, S.
Eisenacher Glawion, D.
Elsaesser, D.
Engelkemeier, M.
Fernández-Barral, A.
Fidalgo, D.
Fonseca, M. V.
Frantzen, K.
Fruck, C.
Galindo, D.
García López, R. J.
Garrido Terrats, D.
Gaug, M.
Gora, D.
Guberman, D.
Herrera, J.
Hose, J.
Hughes, G.
Idec, W.
Kodani, K.
Konno, Y.
Kubo, H.
Kushida, J.
La Barbera, A.
Lindfors, E.
Longo, F.
López, M.
López-Coto, R.
Majumdar, P.
Makariev, M.
Maneva, G.
Mannheim, K.
Mirzoyan, R.
Nakajima, D.
Neustroev, V.
Nishijima, K.
Noda, K.
Nogués, L.
Palacio, J.
Paneque, D.
Paoletti, R.
Paredes, J. M.
Pedaletti, G.
Peresano, M.
Perri, L.
Persic, M.
Poutanen, J.
Prandini, E.
Garcia, J. R.
Reichardt, I.
Rhode, W.
Rico, J.
Saito, T.
Satalecka, K.
Schroeder, S.
Schweizer, T.
Shore, S. N.
Sillanpää, A.
Snidaric, I.
Sobczynska, D.
Strzys, M.
Surić, T.
Takalo, L.
Tavecchio, F.
Terzić, T.
Tescaro, D.
Teshima, M.
Toyama, T.
Vanzo, G.
Verguilov, V.
Vovk, I.
Will, M.
Wu, M. H.
description Context. QSO B0218+357 is a gravitationally lensed blazar located at a redshift of 0.944. The gravitational lensing splits the emitted radiation into two components that are spatially indistinguishable by gamma-ray instruments, but separated by a 10–12 day delay. In July 2014, QSO B0218+357 experienced a violent flare observed by the Fermi-LAT and followed by the MAGIC telescopes. Aims. The spectral energy distribution of QSO B0218+357 can give information on the energetics of z ~ 1 very high energy gamma-ray sources. Moreover the gamma-ray emission can also be used as a probe of the extragalactic background light at z ~ 1. Methods. MAGIC performed observations of QSO B0218+357 during the expected arrival time of the delayed component of the emission. The MAGIC and Fermi-LAT observations were accompanied by quasi-simultaneous optical data from the KVA telescope and X-ray observations by Swift-XRT. We construct a multiwavelength spectral energy distribution of QSO B0218+357 and use it to model the source. The GeV and sub-TeV data obtained by Fermi-LAT and MAGIC are used to set constraints on the extragalactic background light. Results. Very high energy gamma-ray emission was detected from the direction of QSO B0218+357 by the MAGIC telescopes during the expected time of arrival of the trailing component of the flare, making it the farthest very high energy gamma-ray source detected to date. The observed emission spans the energy range from 65 to 175 GeV. The combined MAGIC and Fermi-LAT spectral energy distribution of QSO B0218+357 is consistent with current extragalactic background light models. The broadband emission can be modeled in the framework of a two-zone external Compton scenario, where the GeV emission comes from an emission region in the jet, located outside the broad line region.
doi_str_mv 10.1051/0004-6361/201629461
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L. ; Ansoldi, S. ; Antonelli, L. A. ; Antoranz, P. ; Arcaro, C. ; Banerjee, B. ; Bangale, P. ; Barres de Almeida, U. ; Barrio, J. A. ; Becerra González, J. ; Bednarek, W. ; Bonnefoy, S. ; Bonnoli, G. ; Borracci, F. ; Bretz, T. ; Buson, S. ; Carosi, A. ; Colin, P. ; Contreras, J. L. ; Cortina, J. ; Da Vela, P. ; De Lotto, B. ; Di Pierro, F. ; Doert, M. ; Dominis Prester, D. ; Dorner, D. ; Doro, M. ; Einecke, S. ; Eisenacher Glawion, D. ; Elsaesser, D. ; Engelkemeier, M. ; Fernández-Barral, A. ; Fidalgo, D. ; Fonseca, M. V. ; Frantzen, K. ; Fruck, C. ; Galindo, D. ; García López, R. J. ; Garrido Terrats, D. ; Gaug, M. ; Gora, D. ; Guberman, D. ; Herrera, J. ; Hose, J. ; Hughes, G. ; Idec, W. ; Kodani, K. ; Konno, Y. ; Kubo, H. ; Kushida, J. ; La Barbera, A. ; Lindfors, E. ; Longo, F. ; López, M. ; López-Coto, R. ; Majumdar, P. ; Makariev, M. ; Maneva, G. ; Mannheim, K. ; Mirzoyan, R. ; Nakajima, D. ; Neustroev, V. ; Nishijima, K. ; Noda, K. ; Nogués, L. ; Palacio, J. ; Paneque, D. ; Paoletti, R. ; Paredes, J. M. ; Pedaletti, G. ; Peresano, M. ; Perri, L. ; Persic, M. ; Poutanen, J. ; Prandini, E. ; Garcia, J. R. ; Reichardt, I. ; Rhode, W. ; Rico, J. ; Saito, T. ; Satalecka, K. ; Schroeder, S. ; Schweizer, T. ; Shore, S. N. ; Sillanpää, A. ; Snidaric, I. ; Sobczynska, D. ; Strzys, M. ; Surić, T. ; Takalo, L. ; Tavecchio, F. ; Terzić, T. ; Tescaro, D. ; Teshima, M. ; Toyama, T. ; Vanzo, G. ; Verguilov, V. ; Vovk, I. ; Will, M. ; Wu, M. H.</creator><creatorcontrib>Ahnen, M. L. ; Ansoldi, S. ; Antonelli, L. A. ; Antoranz, P. ; Arcaro, C. ; Banerjee, B. ; Bangale, P. ; Barres de Almeida, U. ; Barrio, J. A. ; Becerra González, J. ; Bednarek, W. ; Bonnefoy, S. ; Bonnoli, G. ; Borracci, F. ; Bretz, T. ; Buson, S. ; Carosi, A. ; Colin, P. ; Contreras, J. L. ; Cortina, J. ; Da Vela, P. ; De Lotto, B. ; Di Pierro, F. ; Doert, M. ; Dominis Prester, D. ; Dorner, D. ; Doro, M. ; Einecke, S. ; Eisenacher Glawion, D. ; Elsaesser, D. ; Engelkemeier, M. ; Fernández-Barral, A. ; Fidalgo, D. ; Fonseca, M. V. ; Frantzen, K. ; Fruck, C. ; Galindo, D. ; García López, R. J. ; Garrido Terrats, D. ; Gaug, M. ; Gora, D. ; Guberman, D. ; Herrera, J. ; Hose, J. ; Hughes, G. ; Idec, W. ; Kodani, K. ; Konno, Y. ; Kubo, H. ; Kushida, J. ; La Barbera, A. ; Lindfors, E. ; Longo, F. ; López, M. ; López-Coto, R. ; Majumdar, P. ; Makariev, M. ; Maneva, G. ; Mannheim, K. ; Mirzoyan, R. ; Nakajima, D. ; Neustroev, V. ; Nishijima, K. ; Noda, K. ; Nogués, L. ; Palacio, J. ; Paneque, D. ; Paoletti, R. ; Paredes, J. M. ; Pedaletti, G. ; Peresano, M. ; Perri, L. ; Persic, M. ; Poutanen, J. ; Prandini, E. ; Garcia, J. R. ; Reichardt, I. ; Rhode, W. ; Rico, J. ; Saito, T. ; Satalecka, K. ; Schroeder, S. ; Schweizer, T. ; Shore, S. N. ; Sillanpää, A. ; Snidaric, I. ; Sobczynska, D. ; Strzys, M. ; Surić, T. ; Takalo, L. ; Tavecchio, F. ; Terzić, T. ; Tescaro, D. ; Teshima, M. ; Toyama, T. ; Vanzo, G. ; Verguilov, V. ; Vovk, I. ; Will, M. ; Wu, M. H. ; SLAC National Accelerator Lab., Menlo Park, CA (United States)</creatorcontrib><description>Context. QSO B0218+357 is a gravitationally lensed blazar located at a redshift of 0.944. The gravitational lensing splits the emitted radiation into two components that are spatially indistinguishable by gamma-ray instruments, but separated by a 10–12 day delay. In July 2014, QSO B0218+357 experienced a violent flare observed by the Fermi-LAT and followed by the MAGIC telescopes. Aims. The spectral energy distribution of QSO B0218+357 can give information on the energetics of z ~ 1 very high energy gamma-ray sources. Moreover the gamma-ray emission can also be used as a probe of the extragalactic background light at z ~ 1. Methods. MAGIC performed observations of QSO B0218+357 during the expected arrival time of the delayed component of the emission. The MAGIC and Fermi-LAT observations were accompanied by quasi-simultaneous optical data from the KVA telescope and X-ray observations by Swift-XRT. We construct a multiwavelength spectral energy distribution of QSO B0218+357 and use it to model the source. The GeV and sub-TeV data obtained by Fermi-LAT and MAGIC are used to set constraints on the extragalactic background light. Results. Very high energy gamma-ray emission was detected from the direction of QSO B0218+357 by the MAGIC telescopes during the expected time of arrival of the trailing component of the flare, making it the farthest very high energy gamma-ray source detected to date. The observed emission spans the energy range from 65 to 175 GeV. The combined MAGIC and Fermi-LAT spectral energy distribution of QSO B0218+357 is consistent with current extragalactic background light models. 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N.</creatorcontrib><creatorcontrib>Sillanpää, A.</creatorcontrib><creatorcontrib>Snidaric, I.</creatorcontrib><creatorcontrib>Sobczynska, D.</creatorcontrib><creatorcontrib>Strzys, M.</creatorcontrib><creatorcontrib>Surić, T.</creatorcontrib><creatorcontrib>Takalo, L.</creatorcontrib><creatorcontrib>Tavecchio, F.</creatorcontrib><creatorcontrib>Terzić, T.</creatorcontrib><creatorcontrib>Tescaro, D.</creatorcontrib><creatorcontrib>Teshima, M.</creatorcontrib><creatorcontrib>Toyama, T.</creatorcontrib><creatorcontrib>Vanzo, G.</creatorcontrib><creatorcontrib>Verguilov, V.</creatorcontrib><creatorcontrib>Vovk, I.</creatorcontrib><creatorcontrib>Will, M.</creatorcontrib><creatorcontrib>Wu, M. H.</creatorcontrib><creatorcontrib>SLAC National Accelerator Lab., Menlo Park, CA (United States)</creatorcontrib><title>Detection of very high energy gamma-ray emission from the gravitationally lensed blazar QSO B0218+357 with the MAGIC telescopes</title><title>Astronomy and astrophysics (Berlin)</title><description>Context. QSO B0218+357 is a gravitationally lensed blazar located at a redshift of 0.944. The gravitational lensing splits the emitted radiation into two components that are spatially indistinguishable by gamma-ray instruments, but separated by a 10–12 day delay. In July 2014, QSO B0218+357 experienced a violent flare observed by the Fermi-LAT and followed by the MAGIC telescopes. Aims. The spectral energy distribution of QSO B0218+357 can give information on the energetics of z ~ 1 very high energy gamma-ray sources. Moreover the gamma-ray emission can also be used as a probe of the extragalactic background light at z ~ 1. Methods. MAGIC performed observations of QSO B0218+357 during the expected arrival time of the delayed component of the emission. The MAGIC and Fermi-LAT observations were accompanied by quasi-simultaneous optical data from the KVA telescope and X-ray observations by Swift-XRT. We construct a multiwavelength spectral energy distribution of QSO B0218+357 and use it to model the source. The GeV and sub-TeV data obtained by Fermi-LAT and MAGIC are used to set constraints on the extragalactic background light. Results. Very high energy gamma-ray emission was detected from the direction of QSO B0218+357 by the MAGIC telescopes during the expected time of arrival of the trailing component of the flare, making it the farthest very high energy gamma-ray source detected to date. The observed emission spans the energy range from 65 to 175 GeV. The combined MAGIC and Fermi-LAT spectral energy distribution of QSO B0218+357 is consistent with current extragalactic background light models. The broadband emission can be modeled in the framework of a two-zone external Compton scenario, where the GeV emission comes from an emission region in the jet, located outside the broad line region.</description><subject>Arrivals</subject><subject>Astronomia de raigs gamma</subject><subject>Astronomy</subject><subject>ASTRONOMY AND ASTROPHYSICS</subject><subject>Blazars</subject><subject>Emission</subject><subject>Flares</subject><subject>Galaxies</subject><subject>galaxies: jets</subject><subject>Galàxies</subject><subject>Gamma ray astronomy</subject><subject>Gamma rays</subject><subject>gamma rays: galaxies</subject><subject>gravitational lensing: strong</subject><subject>quasars: individual: QSO B0218+357</subject><subject>radiation mechanisms: non-thermal</subject><subject>radiation mechnisms: non-thermal</subject><subject>Spectral energy distribution</subject><subject>Telescopes</subject><issn>0004-6361</issn><issn>1432-0746</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><recordid>eNqNkU1v1DAQhiMEEkvhF3CxOCGh0JnYsZ1jaYFSFZWKr6PldSabQBJvbW8hXPjrJGy1XDnY1kjPM_b4zbKnCC8RSjwGAJFLLvG4AJRFJSTey1YoeJGDEvJ-tjoQD7NHMX6bywI1X2W_zyiRS50fmW_YLYWJtd2mZTRS2ExsY4fB5sFOjIYuxgVrgh9Yaoltgr3tkl1c2_cT62mMVLN1b3_ZwK4_XrFXyyUveKnYjy61f6X3J2_fnbJEPUXntxQfZw8a20d6cnceZZ_fvP50ep5fXs3gyWXuhFRp3oV1tbDSFoUSCGtdgYMKsQFe1MDrAkXJ140FWgMXlXISCatKYeM0tzU_yp7t-_qYOhNdN0_dOj-O8_AGeVkqlDOEe8jFnTOBHAVnk_G2-1csqwBVGC45VHx2nu-dbfA3O4rJzB_lqO_tSH4XDeqKVyi0lv-Bal0pqWHpyu9eEnyMgRqzDd1gw2QQzBK5WQI1S6DmEPls5Xuri4l-HhQbvhupuCqNhq8GPpydf4GLC3PN_wBdLqrh</recordid><startdate>20161101</startdate><enddate>20161101</enddate><creator>Ahnen, M. 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H.</creator><general>EDP Sciences</general><scope>BSCLL</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TG</scope><scope>KL.</scope><scope>8FD</scope><scope>H8D</scope><scope>L7M</scope><scope>XX2</scope><scope>OIOZB</scope><scope>OTOTI</scope></search><sort><creationdate>20161101</creationdate><title>Detection of very high energy gamma-ray emission from the gravitationally lensed blazar QSO B0218+357 with the MAGIC telescopes</title><author>Ahnen, M. L. ; Ansoldi, S. ; Antonelli, L. A. ; Antoranz, P. ; Arcaro, C. ; Banerjee, B. ; Bangale, P. ; Barres de Almeida, U. ; Barrio, J. A. ; Becerra González, J. ; Bednarek, W. ; Bonnefoy, S. ; Bonnoli, G. ; Borracci, F. ; Bretz, T. ; Buson, S. ; Carosi, A. ; Colin, P. ; Contreras, J. L. ; Cortina, J. ; Da Vela, P. ; De Lotto, B. ; Di Pierro, F. ; Doert, M. ; Dominis Prester, D. ; Dorner, D. ; Doro, M. ; Einecke, S. ; Eisenacher Glawion, D. ; Elsaesser, D. ; Engelkemeier, M. ; Fernández-Barral, A. ; Fidalgo, D. ; Fonseca, M. V. ; Frantzen, K. ; Fruck, C. ; Galindo, D. ; García López, R. J. ; Garrido Terrats, D. ; Gaug, M. ; Gora, D. ; Guberman, D. ; Herrera, J. ; Hose, J. ; Hughes, G. ; Idec, W. ; Kodani, K. ; Konno, Y. ; Kubo, H. ; Kushida, J. ; La Barbera, A. ; Lindfors, E. ; Longo, F. ; López, M. ; López-Coto, R. ; Majumdar, P. ; Makariev, M. ; Maneva, G. ; Mannheim, K. ; Mirzoyan, R. ; Nakajima, D. ; Neustroev, V. ; Nishijima, K. ; Noda, K. ; Nogués, L. ; Palacio, J. ; Paneque, D. ; Paoletti, R. ; Paredes, J. M. ; Pedaletti, G. ; Peresano, M. ; Perri, L. ; Persic, M. ; Poutanen, J. ; Prandini, E. ; Garcia, J. R. ; Reichardt, I. ; Rhode, W. ; Rico, J. ; Saito, T. ; Satalecka, K. ; Schroeder, S. ; Schweizer, T. ; Shore, S. N. ; Sillanpää, A. ; Snidaric, I. ; Sobczynska, D. ; Strzys, M. ; Surić, T. ; Takalo, L. ; Tavecchio, F. ; Terzić, T. ; Tescaro, D. ; Teshima, M. ; Toyama, T. ; Vanzo, G. ; Verguilov, V. ; Vovk, I. ; Will, M. ; Wu, M. 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H.</creatorcontrib><creatorcontrib>SLAC National Accelerator Lab., Menlo Park, CA (United States)</creatorcontrib><collection>Istex</collection><collection>CrossRef</collection><collection>Meteorological &amp; Geoastrophysical Abstracts</collection><collection>Meteorological &amp; Geoastrophysical Abstracts - Academic</collection><collection>Technology Research Database</collection><collection>Aerospace Database</collection><collection>Advanced Technologies Database with Aerospace</collection><collection>Recercat</collection><collection>OSTI.GOV - Hybrid</collection><collection>OSTI.GOV</collection><jtitle>Astronomy and astrophysics (Berlin)</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Ahnen, M. L.</au><au>Ansoldi, S.</au><au>Antonelli, L. A.</au><au>Antoranz, P.</au><au>Arcaro, C.</au><au>Banerjee, B.</au><au>Bangale, P.</au><au>Barres de Almeida, U.</au><au>Barrio, J. A.</au><au>Becerra González, J.</au><au>Bednarek, W.</au><au>Bonnefoy, S.</au><au>Bonnoli, G.</au><au>Borracci, F.</au><au>Bretz, T.</au><au>Buson, S.</au><au>Carosi, A.</au><au>Colin, P.</au><au>Contreras, J. L.</au><au>Cortina, J.</au><au>Da Vela, P.</au><au>De Lotto, B.</au><au>Di Pierro, F.</au><au>Doert, M.</au><au>Dominis Prester, D.</au><au>Dorner, D.</au><au>Doro, M.</au><au>Einecke, S.</au><au>Eisenacher Glawion, D.</au><au>Elsaesser, D.</au><au>Engelkemeier, M.</au><au>Fernández-Barral, A.</au><au>Fidalgo, D.</au><au>Fonseca, M. V.</au><au>Frantzen, K.</au><au>Fruck, C.</au><au>Galindo, D.</au><au>García López, R. J.</au><au>Garrido Terrats, D.</au><au>Gaug, M.</au><au>Gora, D.</au><au>Guberman, D.</au><au>Herrera, J.</au><au>Hose, J.</au><au>Hughes, G.</au><au>Idec, W.</au><au>Kodani, K.</au><au>Konno, Y.</au><au>Kubo, H.</au><au>Kushida, J.</au><au>La Barbera, A.</au><au>Lindfors, E.</au><au>Longo, F.</au><au>López, M.</au><au>López-Coto, R.</au><au>Majumdar, P.</au><au>Makariev, M.</au><au>Maneva, G.</au><au>Mannheim, K.</au><au>Mirzoyan, R.</au><au>Nakajima, D.</au><au>Neustroev, V.</au><au>Nishijima, K.</au><au>Noda, K.</au><au>Nogués, L.</au><au>Palacio, J.</au><au>Paneque, D.</au><au>Paoletti, R.</au><au>Paredes, J. M.</au><au>Pedaletti, G.</au><au>Peresano, M.</au><au>Perri, L.</au><au>Persic, M.</au><au>Poutanen, J.</au><au>Prandini, E.</au><au>Garcia, J. R.</au><au>Reichardt, I.</au><au>Rhode, W.</au><au>Rico, J.</au><au>Saito, T.</au><au>Satalecka, K.</au><au>Schroeder, S.</au><au>Schweizer, T.</au><au>Shore, S. N.</au><au>Sillanpää, A.</au><au>Snidaric, I.</au><au>Sobczynska, D.</au><au>Strzys, M.</au><au>Surić, T.</au><au>Takalo, L.</au><au>Tavecchio, F.</au><au>Terzić, T.</au><au>Tescaro, D.</au><au>Teshima, M.</au><au>Toyama, T.</au><au>Vanzo, G.</au><au>Verguilov, V.</au><au>Vovk, I.</au><au>Will, M.</au><au>Wu, M. H.</au><aucorp>SLAC National Accelerator Lab., Menlo Park, CA (United States)</aucorp><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Detection of very high energy gamma-ray emission from the gravitationally lensed blazar QSO B0218+357 with the MAGIC telescopes</atitle><jtitle>Astronomy and astrophysics (Berlin)</jtitle><date>2016-11-01</date><risdate>2016</risdate><volume>595</volume><spage>A98</spage><pages>A98-</pages><issn>0004-6361</issn><eissn>1432-0746</eissn><abstract>Context. QSO B0218+357 is a gravitationally lensed blazar located at a redshift of 0.944. The gravitational lensing splits the emitted radiation into two components that are spatially indistinguishable by gamma-ray instruments, but separated by a 10–12 day delay. In July 2014, QSO B0218+357 experienced a violent flare observed by the Fermi-LAT and followed by the MAGIC telescopes. Aims. The spectral energy distribution of QSO B0218+357 can give information on the energetics of z ~ 1 very high energy gamma-ray sources. Moreover the gamma-ray emission can also be used as a probe of the extragalactic background light at z ~ 1. Methods. MAGIC performed observations of QSO B0218+357 during the expected arrival time of the delayed component of the emission. The MAGIC and Fermi-LAT observations were accompanied by quasi-simultaneous optical data from the KVA telescope and X-ray observations by Swift-XRT. We construct a multiwavelength spectral energy distribution of QSO B0218+357 and use it to model the source. The GeV and sub-TeV data obtained by Fermi-LAT and MAGIC are used to set constraints on the extragalactic background light. Results. Very high energy gamma-ray emission was detected from the direction of QSO B0218+357 by the MAGIC telescopes during the expected time of arrival of the trailing component of the flare, making it the farthest very high energy gamma-ray source detected to date. The observed emission spans the energy range from 65 to 175 GeV. The combined MAGIC and Fermi-LAT spectral energy distribution of QSO B0218+357 is consistent with current extragalactic background light models. The broadband emission can be modeled in the framework of a two-zone external Compton scenario, where the GeV emission comes from an emission region in the jet, located outside the broad line region.</abstract><cop>United States</cop><pub>EDP Sciences</pub><doi>10.1051/0004-6361/201629461</doi><tpages>11</tpages><oa>free_for_read</oa></addata></record>
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identifier ISSN: 0004-6361
ispartof Astronomy and astrophysics (Berlin), 2016-11, Vol.595, p.A98
issn 0004-6361
1432-0746
language eng
recordid cdi_osti_scitechconnect_1355716
source EZB Electronic Journals Library
subjects Arrivals
Astronomia de raigs gamma
Astronomy
ASTRONOMY AND ASTROPHYSICS
Blazars
Emission
Flares
Galaxies
galaxies: jets
Galàxies
Gamma ray astronomy
Gamma rays
gamma rays: galaxies
gravitational lensing: strong
quasars: individual: QSO B0218+357
radiation mechanisms: non-thermal
radiation mechnisms: non-thermal
Spectral energy distribution
Telescopes
title Detection of very high energy gamma-ray emission from the gravitationally lensed blazar QSO B0218+357 with the MAGIC telescopes
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