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description Publicationkeyboard_double_arrow_right Other literature type 2023Publisher:OpenAlex Authors: Hidetarô Abe; Shoko Abe;V. A. Acciari;
V. A. Acciari
V. A. Acciari in OpenAIREI. Agudo;
+96 AuthorsI. Agudo
I. Agudo in OpenAIREHidetarô Abe; Shoko Abe;V. A. Acciari;
V. A. Acciari
V. A. Acciari in OpenAIREI. Agudo;
T. Aniello;I. Agudo
I. Agudo in OpenAIRES. Ansoldi;
S. Ansoldi
S. Ansoldi in OpenAIREL. A. Antonelli;
L. A. Antonelli
L. A. Antonelli in OpenAIREA. Arbet Engels;
A. Arbet Engels
A. Arbet Engels in OpenAIRECornelia Arcaro;
Cornelia Arcaro
Cornelia Arcaro in OpenAIREManuel Artero;
Manuel Artero
Manuel Artero in OpenAIREKatsuaki Asano;
Katsuaki Asano
Katsuaki Asano in OpenAIREDominik Baack;
Dominik Baack
Dominik Baack in OpenAIREAna Babić;
Ana Babić
Ana Babić in OpenAIREAndrés Baquero;
Andrés Baquero
Andrés Baquero in OpenAIREU. Barres de Almeida;
U. Barres de Almeida
U. Barres de Almeida in OpenAIREJ. A. Barrio;
J. A. Barrio
J. A. Barrio in OpenAIREIvana Batković;
Joshua Ryo Baxter;Ivana Batković
Ivana Batković in OpenAIREJ. Becerra González;
J. Becerra González
J. Becerra González in OpenAIREW. Bednarek;
W. Bednarek
W. Bednarek in OpenAIREE. Bernardini;
E. Bernardini
E. Bernardini in OpenAIREM. Bernardos;
M. Bernardos
M. Bernardos in OpenAIREAlessio Berti;
Jürgen Besenrieder;Alessio Berti
Alessio Berti in OpenAIREW. Bhattacharyya;
W. Bhattacharyya
W. Bhattacharyya in OpenAIREC. Bigongiari;
C. Bigongiari
C. Bigongiari in OpenAIREA. Biland;
A. Biland
A. Biland in OpenAIREO. Blanch-Bigas;
O. Blanch-Bigas
O. Blanch-Bigas in OpenAIREG. Bonnoli;
G. Bonnoli
G. Bonnoli in OpenAIREZeljko J. Bosnjak;
Zeljko J. Bosnjak
Zeljko J. Bosnjak in OpenAIREIrene Burelli;
Irene Burelli
Irene Burelli in OpenAIREG. Busetto;
G. Busetto
G. Busetto in OpenAIRER. Carosi;
R. Carosi
R. Carosi in OpenAIREM. Carretero-Castrillo;
Alberto J. Castro‐Tirado;M. Carretero-Castrillo
M. Carretero-Castrillo in OpenAIREGiovanni Ceribella;
Giovanni Ceribella
Giovanni Ceribella in OpenAIREYating Chai;
Yating Chai
Yating Chai in OpenAIREA. Chilingarian;
A. Chilingarian
A. Chilingarian in OpenAIREStefan Cikota;
Stefan Cikota
Stefan Cikota in OpenAIREE. Colombo;
E. Colombo
E. Colombo in OpenAIREJ. L. Contreras;
J. L. Contreras
J. L. Contreras in OpenAIREJ. Cortina;
J. Cortina
J. Cortina in OpenAIRES. Covino;
S. Covino
S. Covino in OpenAIREGiacomo D'Amico;
Giacomo D'Amico
Giacomo D'Amico in OpenAIREV. D'Elia;
V. D'Elia
V. D'Elia in OpenAIREP. Da Vela;
P. Da Vela
P. Da Vela in OpenAIREF. Dazzi;
F. Dazzi
F. Dazzi in OpenAIREA. De Angelis;
A. De Angelis
A. De Angelis in OpenAIREB. De Lotto;
B. De Lotto
B. De Lotto in OpenAIREA. Del Popolo;
A. Del Popolo
A. Del Popolo in OpenAIREM. Delfino;
M. Delfino
M. Delfino in OpenAIREJ. Delgado;
J. Delgado
J. Delgado in OpenAIREC. Delgado Mendez;
C. Delgado Mendez
C. Delgado Mendez in OpenAIREDavide Depaoli;
Davide Depaoli
Davide Depaoli in OpenAIREF. Di Pierro;
F. Di Pierro
F. Di Pierro in OpenAIREL. Di Venere;
L. Di Venere
L. Di Venere in OpenAIREE. Do Souto Espiñeira;
E. Do Souto Espiñeira
E. Do Souto Espiñeira in OpenAIRED. Dominis Prester;
D. Dominis Prester
D. Dominis Prester in OpenAIREAlice Donini;
Alice Donini
Alice Donini in OpenAIRED. Dorner;
D. Dorner
D. Dorner in OpenAIREM. Doro;
M. Doro
M. Doro in OpenAIRED. Elsäesser;
D. Elsäesser
D. Elsäesser in OpenAIREGabriel Emery;
Gabriel Emery
Gabriel Emery in OpenAIREJuan Escudero;
Juan Escudero
Juan Escudero in OpenAIREV. Fallah Ramazani;
V. Fallah Ramazani
V. Fallah Ramazani in OpenAIREL. Fariña;
L. Fariña
L. Fariña in OpenAIREAlicia Fattorini;
Alicia Fattorini
Alicia Fattorini in OpenAIRELuca Foffano;
Luca Foffano
Luca Foffano in OpenAIREL. Font;
L. Font
L. Font in OpenAIREC. Fruck;
C. Fruck
C. Fruck in OpenAIRESatoshi Fukami;
Satoshi Fukami
Satoshi Fukami in OpenAIREYasushi Fukazawa;
Yasushi Fukazawa
Yasushi Fukazawa in OpenAIRER. J. García López;
R. J. García López
R. J. García López in OpenAIREM. Garczarczyk;
M. Garczarczyk
M. Garczarczyk in OpenAIRESargis Gasparyan;
Sargis Gasparyan
Sargis Gasparyan in OpenAIREM. Gaug;
M. Gaug
M. Gaug in OpenAIREJoão Gabriel Giesbrecht Paiva;
João Gabriel Giesbrecht Paiva
João Gabriel Giesbrecht Paiva in OpenAIREN. Giglietto;
N. Giglietto
N. Giglietto in OpenAIREF. Giordano;
F. Giordano
F. Giordano in OpenAIREPaweł Gliwny;
Paweł Gliwny
Paweł Gliwny in OpenAIRENikola Godinović;
R. Grau;Nikola Godinović
Nikola Godinović in OpenAIRED. Green;
D. Green
D. Green in OpenAIREJ. G. Green;
J. G. Green
J. G. Green in OpenAIRED. Hadasch;
D. Hadasch
D. Hadasch in OpenAIREAlexander Hahn;
Alexander Hahn
Alexander Hahn in OpenAIRET. Hassan;
T. Hassan
T. Hassan in OpenAIRELea Heckmann;
Lea Heckmann
Lea Heckmann in OpenAIREJ. Herrera;
J. Herrera
J. Herrera in OpenAIREDario Hrupec;
Dario Hrupec
Dario Hrupec in OpenAIREMoritz Hütten;
Moritz Hütten
Moritz Hütten in OpenAIRERyo Imazawa;
Ryo Imazawa
Ryo Imazawa in OpenAIRETomohiro Inada;
Roman Iotov;Tomohiro Inada
Tomohiro Inada in OpenAIREKazuma Ishio;
Kazuma Ishio
Kazuma Ishio in OpenAIREI. Jiménez Martínez;
I. Jiménez Martínez
I. Jiménez Martínez in OpenAIREJenni Jormanainen;
Jenni Jormanainen
Jenni Jormanainen in OpenAIREDaniel Kerszberg;
Daniel Kerszberg
Daniel Kerszberg in OpenAIREYukiho Kobayashi;
Yukiho Kobayashi
Yukiho Kobayashi in OpenAIREH. Kubo;
H. Kubo
H. Kubo in OpenAIREResumen Estudiamos la emisión de banda ancha de Mrk 501 utilizando observaciones de múltiples longitudes de onda de 2017 a 2020 realizadas con una multitud de instrumentos, que involucran, entre otros, MAGIC, Fermi 's Large Area Telescope (LAT), NuSTAR, Swift, GASP-WEBT y el Owens Valley Radio Observatory. Mrk 501 mostró una actividad de banda ancha extremadamente baja, lo que puede ayudar a desentrañar su emisión de referencia. Sin embargo, se detectan variaciones de flujo significativas en todas las bandas de onda, y las más altas ocurren en rayos X y rayos γ de muy alta energía (VHE). Se mide una correlación significativa (>3 σ ) entre los rayos X y los rayos γ de VHE, lo que respalda los escenarios leptónicos para explicar las partes variables de la emisión, también durante la baja actividad. Esto se confirma aún más cuando ampliamos nuestros datos de 2008 a 2020 e identificamos, por primera vez, correlaciones significativas entre el telescopio de rayos X Swift y Fermi-LAT. Además, encontramos correlaciones entre los rayos γ de alta energía y la radio, con un retraso de la radio de más de 100 días, lo que coloca la zona de emisión de rayos γ aguas arriba de las regiones radiobrillantes en el chorro. Además, Mrk 501 mostró una actividad históricamente baja en rayos X y rayos γ VHE desde mediados de 2017 hasta mediados de 2019 con un flujo VHE estable (>0,2 TeV) del 5% de la emisión de la Nebulosa del Cangrejo. La distribución de energía espectral de banda ancha (sed) de este estado bajo de 2 años de duración, la emisión de referencia potencial de Mrk 501, se puede caracterizar con modelos leptónicos de una zona y con modelos (lepto) -hadrónicos que cumplen con las restricciones de flujo de neutrinos de IceCube. Exploramos la evolución temporal del sed hacia el estado bajo, revelando que la emisión de referencia estable puede atribuirse a un choque permanente, y la emisión variable a un choque adicional en expansión o en movimiento. Résumé Nous étudions l'émission à large bande de Mrk 501 à l'aide d'observations multi-longueurs d'onde de 2017 à 2020 effectuées avec une multitude d'instruments, impliquant, entre autres, MAGIC, le Large Area Telescope (LAT) de Fermi, NuSTAR, Swift, GASP-WEBT et l'Owens Valley Radio Observatory. Mrk 501 a montré une activité à large bande extrêmement faible, ce qui peut aider à démêler son émission de base. Néanmoins, des variations de flux significatives sont détectées à toutes les bandes d'ondes, les plus élevées se produisant aux rayons X et aux rayons γ de très haute énergie (VHE). Une corrélation significative (>3 σ ) entre les rayons X et les rayons γ VHE est mesurée, soutenant des scénarios leptoniques pour expliquer les parties variables de l'émission, également en cas de faible activité. Cela est également confirmé lorsque nous étendons nos données de 2008 à 2020 et identifions, pour la première fois, des corrélations significatives entre le télescope à rayons X Swift et Fermi-LAT. Nous trouvons en outre des corrélations entre les rayons γ de haute énergie et la radio, la radio étant en retard de plus de 100 jours, plaçant la zone d'émission des rayons γ en amont des régions radio-brillantes dans le jet. En outre, Mrk 501 a montré une activité historiquement faible dans les rayons X et les rayons γ VHE de mi-2017 à mi-2019 avec un flux VHE stable (>0,2 TeV) de 5% de l'émission de la nébuleuse du Crabe. La distribution d'énergie spectrale à large bande (SED) de cet état bas de 2 ans de long, l'émission de base potentielle de Mrk 501, peut être caractérisée avec des modèles leptoniques à une zone et avec des modèles (lepto)-hadroniques satisfaisant aux contraintes de flux de neutrinos de IceCube. Nous explorons l'évolution temporelle du SED vers l'état bas, révélant que l'émission de base stable peut être attribuée à un choc permanent et l'émission variable à un choc supplémentaire en expansion ou en déplacement. Abstract We study the broadband emission of Mrk 501 using multiwavelength observations from 2017 to 2020 performed with a multitude of instruments, involving, among others, MAGIC, Fermi's Large Area Telescope (LAT), NuSTAR, Swift, GASP-WEBT, and the Owens Valley Radio Observatory. Mrk 501 showed an extremely low broadband activity, which may help to unravel its baseline emission. Nonetheless, significant flux variations are detected at all wave bands, with the highest occurring at X-rays and very-high-energy (VHE) γ -rays. A significant correlation (>3 σ ) between X-rays and VHE γ -rays is measured, supporting leptonic scenarios to explain the variable parts of the emission, also during low activity. This is further supported when we extend our data from 2008 to 2020, and identify, for the first time, significant correlations between the Swift X-Ray Telescope and Fermi-LAT. We additionally find correlations between high-energy γ -rays and radio, with the radio lagging by more than 100 days, placing the γ -ray emission zone upstream of the radio-bright regions in the jet. Furthermore, Mrk 501 showed a historically low activity in X-rays and VHE γ -rays from mid-2017 to mid-2019 with a stable VHE flux (>0.2 TeV) of 5% the emission of the Crab Nebula. The broadband spectral energy distribution (SED) of this 2 yr long low state, the potential baseline emission of Mrk 501, can be characterized with one-zone leptonic models, and with (lepto)-hadronic models fulfilling neutrino flux constraints from IceCube. We explore the time evolution of the SED toward the low state, revealing that the stable baseline emission may be ascribed to a standing shock, and the variable emission to an additional expanding or traveling shock. ندرس انبعاث النطاق العريض لـ MRK 501 باستخدام ملاحظات متعددة الأطوال الموجية من 2017 إلى 2020 التي يتم إجراؤها باستخدام العديد من الأدوات، والتي تشمل، من بين أمور أخرى، MAGIC، وتلسكوب فيرمي واسع النطاق (LAT)، و NuSTAR، و SWIFT، و GASP - WEBT، ومرصد أوينز فالي الراديوي. أظهر MRK 501 نشاطًا منخفضًا للغاية للنطاق العريض، مما قد يساعد في كشف انبعاثه الأساسي. ومع ذلك، يتم الكشف عن اختلافات كبيرة في التدفق في جميع نطاقات الموجة، مع حدوث أعلىها في الأشعة السينية وأشعة γ عالية الطاقة للغاية (VHE). يتم قياس ارتباط كبير (>3 σ ) بين الأشعة السينية وأشعة VHE γ، مما يدعم السيناريوهات اللبتونية لشرح الأجزاء المتغيرة من الانبعاث، أيضًا أثناء النشاط المنخفض. يتم دعم ذلك بشكل أكبر عندما نوسع بياناتنا من 2008 إلى 2020، ونحدد، لأول مرة، الارتباطات المهمة بين تلسكوب Swift X - Ray و Fermi - LAT. بالإضافة إلى ذلك، نجد ارتباطات بين أشعة جاما عالية الطاقة والراديو، حيث يتخلف الراديو بأكثر من 100 يوم، مما يضع منطقة انبعاث أشعة جاما في المنبع لمناطق الإشعاع الراديوي في الطائرة. علاوة على ذلك، أظهر Mrk 501 نشاطًا منخفضًا تاريخيًا في الأشعة السينية وأشعة VHE γ من منتصف عام 2017 إلى منتصف عام 2019 مع تدفق ثابت لـ VHE (>0.2 TeV) بنسبة 5 ٪ من انبعاث سديم السرطان. يمكن تمييز توزيع الطاقة الطيفية عريضة النطاق (SED) لهذه الحالة المنخفضة لمدة عامين، وهو الانبعاث الأساسي المحتمل لـ Mrk 501، بنماذج لبتونية من منطقة واحدة، وبنماذج (لبتو) - متناظرية تفي بقيود تدفق النيوترينو من IceCube. نستكشف التطور الزمني لـ SED نحو الحالة المنخفضة، مما يكشف عن أن انبعاث خط الأساس المستقر قد يعزى إلى صدمة دائمة، والانبعاث المتغير إلى صدمة إضافية متوسعة أو متنقلة.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Preprint , Other literature type , Journal 2020Embargo end date: 01 Jan 2019 Spain, Italy, Italy, France, Italy, Spain, South Africa, Italy, France, Germany, Italy, Finland, Italy, Germany, Italy, South Africa, Germany, Croatia, Italy, Italy, France, Italy, CroatiaPublisher:American Astronomical Society Funded by:EC | PROBIST, AKA | Intrinsic Very High Energ..., EC | AstroFIt2EC| PROBIST ,AKA| Intrinsic Very High Energy Gamma-ray Emission of Blazars ,EC| AstroFIt2Authors:Matteo Cerruti;
Matteo Cerruti
Matteo Cerruti in OpenAIREF. Leone;
Jose Miguel Miranda; T. Schweizer; +193 AuthorsF. Leone
F. Leone in OpenAIREMatteo Cerruti;
Matteo Cerruti
Matteo Cerruti in OpenAIREF. Leone;
Jose Miguel Miranda; T. Schweizer; Alice Donini;F. Leone
F. Leone in OpenAIRES. Paiano;
Konstancja Satalecka; Kazuma Ishio;S. Paiano
S. Paiano in OpenAIREA. Hahn;
A. Hahn
A. Hahn in OpenAIRESerena Loporchio;
Serena Loporchio
Serena Loporchio in OpenAIREY. Chai;
Francesco Longo; Francesco Longo;Y. Chai
Y. Chai in OpenAIREJ. Rico;
D. Dominis Prester; Ž. Bošnjak;D. Guberman;
D. Guberman
D. Guberman in OpenAIREP. Majumdar;
David H. Green;P. Majumdar
P. Majumdar in OpenAIREP. Temnikov;
John Hoang;P. Temnikov
P. Temnikov in OpenAIREM. V. Fonseca;
M. V. Fonseca
M. V. Fonseca in OpenAIRED. Zarić;
Mitsunari Takahashi;D. Zarić
D. Zarić in OpenAIRED. Strom;
D. Strom
D. Strom in OpenAIREJuan Cortina;
Juan Cortina
Juan Cortina in OpenAIREM. López;
M. López
M. López in OpenAIREOscar Blanch;
Susumu Inoue; Susumu Inoue;Oscar Blanch
Oscar Blanch in OpenAIRECiro Bigongiari;
Ciro Bigongiari
Ciro Bigongiari in OpenAIREValerio Vagelli;
Valerio Vagelli
Valerio Vagelli in OpenAIREG. Ferrara;
G. Ferrara
G. Ferrara in OpenAIRES. Cikota;
S. Cikota
S. Cikota in OpenAIREP. Da Vela;
F. Di Pierro;P. Da Vela
P. Da Vela in OpenAIREC. Arcaro;
C. Arcaro;C. Arcaro
C. Arcaro in OpenAIREK. Noda;
K. Noda;K. Noda
K. Noda in OpenAIREDorota Sobczyńska;
Dorota Sobczyńska
Dorota Sobczyńska in OpenAIRED. Morcuende;
D. Morcuende
D. Morcuende in OpenAIRED. Ninci;
D. Ninci
D. Ninci in OpenAIREB. De Lotto;
G. Vanzo;B. De Lotto
B. De Lotto in OpenAIRER. Paoletti;
R. Paoletti
R. Paoletti in OpenAIRELl. Font;
Ll. Font
Ll. Font in OpenAIREC. Nigro;
C. Nigro
C. Nigro in OpenAIREE. Moretti;
Abelardo Moralejo;E. Moretti
E. Moretti in OpenAIREFabrizio Tavecchio;
Fabrizio Tavecchio
Fabrizio Tavecchio in OpenAIRED. Elsaesser;
D. Elsaesser
D. Elsaesser in OpenAIREDominik Baack;
R. J. García López;Dominik Baack
Dominik Baack in OpenAIREMoritz Hütten;
Moritz Hütten
Moritz Hütten in OpenAIREA. Lamastra;
B. Machado de Oliveira Fraga;A. Lamastra
A. Lamastra in OpenAIREL. Saha;
L. Saha
L. Saha in OpenAIREA. Babić;
A. Babić
A. Babić in OpenAIREJ. Kushida;
J. Kushida; L. Di Venere;J. Kushida
J. Kushida in OpenAIREJuan Abel Barrio;
Juan Abel Barrio
Juan Abel Barrio in OpenAIRED. Miceli;
D. Miceli
D. Miceli in OpenAIREA. De Angelis;
A. De Angelis
A. De Angelis in OpenAIRENarek Sahakyan;
J. Becerra González; M. Strzys;Narek Sahakyan
Narek Sahakyan in OpenAIREM. Vazquez Acosta;
M. Vazquez Acosta
M. Vazquez Acosta in OpenAIRER. Carosi;
Y. Iwamura; Y. Iwamura;R. Carosi
R. Carosi in OpenAIREK. Mannheim;
K. Mannheim
K. Mannheim in OpenAIRED. Lelas;
D. Lelas
D. Lelas in OpenAIREG. Bonnoli;
Elina Lindfors; David Paneque;G. Bonnoli
G. Bonnoli in OpenAIREK. Nishijima;
K. Nishijima; J. Besenrieder;K. Nishijima
K. Nishijima in OpenAIREE. Do Souto Espiñeira;
E. Do Souto Espiñeira
E. Do Souto Espiñeira in OpenAIREElisa Bernardini;
Kai Phillip Schmidt; Toshiaki Inada; Toshiaki Inada;Elisa Bernardini
Elisa Bernardini in OpenAIREG. Busetto;
G. Busetto
G. Busetto in OpenAIREYusuke Suda;
Yusuke Suda
Yusuke Suda in OpenAIREA. Berti;
A. Berti
A. Berti in OpenAIRESaverio Lombardi;
Saverio Lombardi
Saverio Lombardi in OpenAIREWolfgang Rhode;
Wolfgang Rhode
Wolfgang Rhode in OpenAIREAntonio Stamerra;
Antonio Stamerra
Antonio Stamerra in OpenAIREVitaly Neustroev;
Vitaly Neustroev
Vitaly Neustroev in OpenAIREW. Bednarek;
W. Bednarek
W. Bednarek in OpenAIREP. Munar-Adrover;
P. Munar-Adrover
P. Munar-Adrover in OpenAIREJ. Herrera;
J. Herrera
J. Herrera in OpenAIREA. Somero;
A. Somero
A. Somero in OpenAIRER. López-Coto;
Dario Hrupec;R. López-Coto
R. López-Coto in OpenAIREM. Peresano;
M. Peresano
M. Peresano in OpenAIREF. D'Ammando;
Chiara Righi;F. D'Ammando
F. D'Ammando in OpenAIRED. Fidalgo;
I. Šnidarić;D. Fidalgo
D. Fidalgo in OpenAIREM. Mallamaci;
M. Mallamaci
M. Mallamaci in OpenAIREU. Barres de Almeida;
U. Barres de Almeida
U. Barres de Almeida in OpenAIREMarina Manganaro;
Marina Manganaro
Marina Manganaro in OpenAIREC. Maggio;
C. Maggio
C. Maggio in OpenAIREElisa Prandini;
Elisa Prandini;Elisa Prandini
Elisa Prandini in OpenAIREJ. van Scherpenberg;
J. van Scherpenberg
J. van Scherpenberg in OpenAIREE. Colombo;
T. Surić;E. Colombo
E. Colombo in OpenAIRENicola Giglietto;
Nicola Giglietto
Nicola Giglietto in OpenAIREDaniel Kerszberg;
Daniel Kerszberg
Daniel Kerszberg in OpenAIREL. Nogués;
L. Nogués
L. Nogués in OpenAIREM. Gaug;
N. Godinović;
D. Dorner;N. Godinović
N. Godinović in OpenAIREM. Ribó;
Saša Mićanović;M. Minev;
Louis Antonelli;M. Minev
M. Minev in OpenAIRED. Mazin;
D. Mazin;D. Mazin
D. Mazin in OpenAIRED. Hadasch;
D. Hadasch; Jordi Delgado; L. Bellizzi;D. Hadasch
D. Hadasch in OpenAIREV. A. Acciari;
V. A. Acciari
V. A. Acciari in OpenAIREH. Kubo;
H. Kubo; R. Mirzoyan; T. Saito; T. Saito;H. Kubo
H. Kubo in OpenAIREV. Fallah Ramazani;
G. Ceribella;V. Fallah Ramazani
V. Fallah Ramazani in OpenAIREA. Chilingaryan;
S. Gasparyan; Anne M. Lohfink;A. Chilingaryan
A. Chilingaryan in OpenAIREJose Luis Contreras;
Ferdinando Giordano; Carlo Vigorito; Kari Nilsson;Jose Luis Contreras
Jose Luis Contreras in OpenAIREVictoria Moreno;
Victoria Moreno
Victoria Moreno in OpenAIREV. Vitale;
V. Vitale
V. Vitale in OpenAIREMassimo Persic;
Massimo Persic; A. Fattorini; L. Maraschi;Massimo Persic
Massimo Persic in OpenAIREStefano Covino;
Stefano Covino
Stefano Covino in OpenAIREFrancesco Tombesi;
Tomislav Terzić;Francesco Tombesi
Francesco Tombesi in OpenAIREM. Mariotti;
P. Peñil;M. Mariotti
M. Mariotti in OpenAIREE. Molina;
E. Molina
E. Molina in OpenAIREM. Will;
M. Will
M. Will in OpenAIREL. Foffano;
M. I. Martínez;L. Foffano
L. Foffano in OpenAIREB. Banerjee;
B. Banerjee
B. Banerjee in OpenAIRES. Ansoldi;
S. Ansoldi; S. Ansoldi;S. Ansoldi
S. Ansoldi in OpenAIREI. Puljak;
I. Puljak
I. Puljak in OpenAIREMichele Doro;
Michele Doro
Michele Doro in OpenAIREI. Vovk;
I. Vovk
I. Vovk in OpenAIREV. D'Elia;
V. D'Elia
V. D'Elia in OpenAIREP. G. Prada Moroni;
Luca Tosti;P. G. Prada Moroni
P. G. Prada Moroni in OpenAIREN. Torres-Albà;
N. Torres-Albà
N. Torres-Albà in OpenAIREA. Arbet Engels;
A. Arbet Engels
A. Arbet Engels in OpenAIREA. Biland;
A. Biland
A. Biland in OpenAIREDavide Depaoli;
Davide Depaoli
Davide Depaoli in OpenAIREM. Delfino;
Shunsuke Sakurai;M. Delfino
M. Delfino in OpenAIREA. Rugliancich;
U. Colin;A. Rugliancich
A. Rugliancich in OpenAIREW. Bhattacharyya;
W. Bhattacharyya
W. Bhattacharyya in OpenAIREC. Fruck;
C. Fruck
C. Fruck in OpenAIREG. Maneva;
G. Maneva
G. Maneva in OpenAIREA. Carosi;
M. Teshima; M. Teshima;A. Carosi
A. Carosi in OpenAIREJulian Sitarek;
Satoshi Fukami; Satoshi Fukami;Julian Sitarek
Julian Sitarek in OpenAIREM. Palatiello;
M. Palatiello
M. Palatiello in OpenAIREA. López-Oramas;
A. López-Oramas
A. López-Oramas in OpenAIREM. Garczarczyk;
Léa Jouvin;M. Garczarczyk
M. Garczarczyk in OpenAIREJ. M. Paredes;
J. M. Paredes
J. M. Paredes in OpenAIRESeiya Nozaki;
Seiya Nozaki;Seiya Nozaki
Seiya Nozaki in OpenAIRES. M. Colak;
S. M. Colak
S. M. Colak in OpenAIREKatsuaki Asano;
Katsuaki Asano;Katsuaki Asano
Katsuaki Asano in OpenAIREM. Makariev;
M. Makariev
M. Makariev in OpenAIREFrancesco Dazzi;
Francesco Dazzi
Francesco Dazzi in OpenAIREhandle: 11368/2994671 , 10261/235766 , 10394/34584 , 11365/1120825 , 11577/3315821 , 2108/225453 , 11568/1063543 , 11589/206776 , 20.500.11769/417399 , 2318/1772041 , 11586/348306
handle: 11368/2994671 , 10261/235766 , 10394/34584 , 11365/1120825 , 11577/3315821 , 2108/225453 , 11568/1063543 , 11589/206776 , 20.500.11769/417399 , 2318/1772041 , 11586/348306
Abstract Extreme high-frequency-peaked BL Lac objects (EHBLs) are blazars that exhibit extremely energetic synchrotron emission. They also feature nonthermal gamma-ray emission whose peak lies in the very high-energy (VHE, E > 100 GeV) range, and in some sources exceeds 1 TeV: this is the case for hard-TeV EHBLs such as 1ES 0229+200. With the aim of increasing the EHBL population, 10 targets were observed with the MAGIC telescopes from 2010 to 2017, for a total of 265 hr of good-quality data. The data were complemented by coordinated Swift observations. The X-ray data analysis confirms that all but two sources are EHBLs. The sources show only a modest variability and a harder-when-brighter behavior, typical for this class of objects. At VHE gamma-rays, three new sources were detected and a hint of a signal was found for another new source. In each case, the intrinsic spectrum is compatible with the hypothesis of a hard-TeV nature of these EHBLs. The broadband spectral energy distributions (SEDs) of all sources are built and modeled in the framework of a single-zone, purely leptonic model. The VHE gamma-ray-detected sources were also interpreted with a spine–layer model and a proton synchrotron model. The three models provide a good description of the SEDs. However, the resulting parameters differ substantially in the three scenarios, in particular the magnetization parameter. This work presents the first mini catalog of VHE gamma-ray and multiwavelength observations of EHBLs.
Usiena air - Univers... arrow_drop_down Archivio della Ricerca - Università di PisaArticle . 2020License: CC BY NC NDData sources: Archivio della Ricerca - Università di PisaUniversità degli Studi di Bari Aldo Moro: CINECA IRISArticle . 2020Full-Text: https://hdl.handle.net/11586/348306Data sources: Bielefeld Academic Search Engine (BASE)Università degli Studi di Siena: USiena airArticle . 2020Full-Text: http://hdl.handle.net/11365/1120825Data sources: Bielefeld Academic Search Engine (BASE)Archivio della Ricerca - Università di Roma Tor vergataArticle . 2020Full-Text: http://hdl.handle.net/2108/225453Data sources: Bielefeld Academic Search Engine (BASE)The Astrophysical Journal Supplement SeriesArticle . 2020 . Peer-reviewedLicense: IOP Copyright PoliciesData sources: CrossrefCroatian Scientific Bibliography - CROSBIArticle . 2020Data sources: Croatian Scientific Bibliography - CROSBIRecolector de Ciencia Abierta, RECOLECTAArticle . 2020Data sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTAArticle . 2020Data sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTAArticle . 2020 . Peer-reviewedData sources: Recolector de Ciencia Abierta, RECOLECTAThe Astrophysical Journal Supplement SeriesArticle . 2020Data sources: Croatian Research Information SystemNorth-West University Institutional RepositoryArticle . 2020Data sources: North-West University Institutional RepositoryUniversity of Oulu Repository - JultikaArticle . 2020Data sources: University of Oulu Repository - JultikaThe Astrophysical Journal Supplement SeriesArticle . 2020 . Peer-reviewedData sources: European Union Open Data PortalIRIS - Università degli Studi di CataniaArticle . 2020Data sources: IRIS - Università degli Studi di Cataniahttps://dx.doi.org/10.48550/ar...Article . 2019License: arXiv Non-Exclusive DistributionData sources: DataciteUniversité Savoie Mont Blanc: HALArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)Università degli Studi di Bari Aldo Moro: CINECA IRISArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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visibility 33visibility views 33 download downloads 21 Powered bymore_vert Usiena air - Univers... arrow_drop_down Archivio della Ricerca - Università di PisaArticle . 2020License: CC BY NC NDData sources: Archivio della Ricerca - Università di PisaUniversità degli Studi di Bari Aldo Moro: CINECA IRISArticle . 2020Full-Text: https://hdl.handle.net/11586/348306Data sources: Bielefeld Academic Search Engine (BASE)Università degli Studi di Siena: USiena airArticle . 2020Full-Text: http://hdl.handle.net/11365/1120825Data sources: Bielefeld Academic Search Engine (BASE)Archivio della Ricerca - Università di Roma Tor vergataArticle . 2020Full-Text: http://hdl.handle.net/2108/225453Data sources: Bielefeld Academic Search Engine (BASE)The Astrophysical Journal Supplement SeriesArticle . 2020 . Peer-reviewedLicense: IOP Copyright PoliciesData sources: CrossrefCroatian Scientific Bibliography - CROSBIArticle . 2020Data sources: Croatian Scientific Bibliography - CROSBIRecolector de Ciencia Abierta, RECOLECTAArticle . 2020Data sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTAArticle . 2020Data sources: Recolector de Ciencia Abierta, RECOLECTARecolector de Ciencia Abierta, RECOLECTAArticle . 2020 . Peer-reviewedData sources: Recolector de Ciencia Abierta, RECOLECTAThe Astrophysical Journal Supplement SeriesArticle . 2020Data sources: Croatian Research Information SystemNorth-West University Institutional RepositoryArticle . 2020Data sources: North-West University Institutional RepositoryUniversity of Oulu Repository - JultikaArticle . 2020Data sources: University of Oulu Repository - JultikaThe Astrophysical Journal Supplement SeriesArticle . 2020 . Peer-reviewedData sources: European Union Open Data PortalIRIS - Università degli Studi di CataniaArticle . 2020Data sources: IRIS - Università degli Studi di Cataniahttps://dx.doi.org/10.48550/ar...Article . 2019License: arXiv Non-Exclusive DistributionData sources: DataciteUniversité Savoie Mont Blanc: HALArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)Università degli Studi di Bari Aldo Moro: CINECA IRISArticle . 2020Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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For further information contact us at helpdesk@openaire.eudescription Publicationkeyboard_double_arrow_right Article , Preprint 2023Embargo end date: 01 Jan 2023 France, Czech Republic, Italy, France, Germany, Spain, France, Germany, Spain, France, France, Czech RepublicPublisher:American Astronomical Society Funded by:MIUR, EC | CTA-PP, EC | ESCAPE +5 projectsMIUR ,EC| CTA-PP ,EC| ESCAPE ,EC| PROBIST ,EC| PREBIST ,DFG ,EC| CTA-DEV ,EC| INFIERIAuthors: Abe, H.; Abe, K.;Artero, M.;
Artero, M.
Artero, M. in OpenAIREHackfeld, J.;
+196 AuthorsHackfeld, J.
Hackfeld, J. in OpenAIREAbe, H.; Abe, K.;Artero, M.;
Artero, M.
Artero, M. in OpenAIREHackfeld, J.;
Hackfeld, J.
Hackfeld, J. in OpenAIREHadasch, D.;
Hadasch, D.
Hadasch, D. in OpenAIREHahn, A.;
Hashiyama, K.;Hahn, A.
Hahn, A. in OpenAIREHassan, T.;
Hassan, T.
Hassan, T. in OpenAIREHayashi, K.;
Hayashi, K.
Hayashi, K. in OpenAIREHeckmann, L.;
Heckmann, L.
Heckmann, L. in OpenAIREHeller, M.;
Herrera Llorente, J.;Heller, M.
Heller, M. in OpenAIREHirotani, K.;
Hirotani, K.
Hirotani, K. in OpenAIREAsano, K.;
Asano, K.
Asano, K. in OpenAIREHoffmann, D.;
Hoffmann, D.
Hoffmann, D. in OpenAIREHorns, D.;
Horns, D.
Horns, D. in OpenAIREHoules, J.;
Houles, J.
Houles, J. in OpenAIREHrabovsky, M.;
Hrabovsky, M.
Hrabovsky, M. in OpenAIREHrupec, D.;
Hui, D.;Hrupec, D.
Hrupec, D. in OpenAIREHütten, M.;
Hütten, M.
Hütten, M. in OpenAIREIarlori, M.;
Iarlori, M.
Iarlori, M. in OpenAIREImazawa, R.;
Imazawa, R.
Imazawa, R. in OpenAIREInada, T.;
Aubert, P.;Inada, T.
Inada, T. in OpenAIREInome, Y.;
Ioka, K.;Inome, Y.
Inome, Y. in OpenAIREIori, M.;
Ishio, K.; Iwamura, Y.;Iori, M.
Iori, M. in OpenAIREJacquemont, M.;
Jacquemont, M.
Jacquemont, M. in OpenAIREMartinez, I. Jimenez;
Martinez, I. Jimenez
Martinez, I. Jimenez in OpenAIREJurysek, J.;
Kagaya, M.;Jurysek, J.
Jurysek, J. in OpenAIREKaras, V.;
Karas, V.
Karas, V. in OpenAIREBaktash, A.;
Baktash, A.
Baktash, A. in OpenAIREKatagiri, H.;
Katagiri, H.
Katagiri, H. in OpenAIREKataoka, J.;
Kataoka, J.
Kataoka, J. in OpenAIREKerszberg, D.;
Kerszberg, D.
Kerszberg, D. in OpenAIREKobayashi, Y.;
Kobayashi, Y.
Kobayashi, Y. in OpenAIREKong, A.;
Kong, A.
Kong, A. in OpenAIREKubo, H.;
Kubo, H.
Kubo, H. in OpenAIREKushida, J.;
Kushida, J.
Kushida, J. in OpenAIRELainez, M.;
Lamanna, G.;Lainez, M.
Lainez, M. in OpenAIRELamastra, A.;
Lamastra, A.
Lamastra, A. in OpenAIREBamba, A.;
Le Flour, T.;Bamba, A.
Bamba, A. in OpenAIRELinhoff, M.;
Linhoff, M.
Linhoff, M. in OpenAIRELongo, F.;
Longo, F.
Longo, F. in OpenAIRELópez-Coto, R.;
López-Coto, R.
López-Coto, R. in OpenAIRELópez-Moya, M.;
López-Moya, M.
López-Moya, M. in OpenAIRELópez-Oramas, A.;
López-Oramas, A.
López-Oramas, A. in OpenAIRELoporchio, S.;
Lorini, A.;Loporchio, S.
Loporchio, S. in OpenAIRELuque-Escamilla, P. L.;
Luque-Escamilla, P. L.
Luque-Escamilla, P. L. in OpenAIREMajumdar, P.;
Majumdar, P.
Majumdar, P. in OpenAIRELarriva, A. Baquero;
Larriva, A. Baquero
Larriva, A. Baquero in OpenAIREMakariev, M.;
Makariev, M.
Makariev, M. in OpenAIREMandat, D.;
Mandat, D.
Mandat, D. in OpenAIREManganaro, M.;
Manganaro, M.
Manganaro, M. in OpenAIREManicò, G.;
Manicò, G.
Manicò, G. in OpenAIREMannheim, K.;
Mannheim, K.
Mannheim, K. in OpenAIREMariotti, M.;
Mariotti, M.
Mariotti, M. in OpenAIREMarquez, P.;
Marquez, P.
Marquez, P. in OpenAIREMarsella, G.;
Marsella, G.
Marsella, G. in OpenAIREMartí, J.;
Martí, J.
Martí, J. in OpenAIREMartinez, O.;
Martinez, O.
Martinez, O. in OpenAIREBaroncelli, L.;
Baroncelli, L.
Baroncelli, L. in OpenAIREMartínez, G.;
Martínez, G.
Martínez, G. in OpenAIREMartínez, M.;
Martínez, M.
Martínez, M. in OpenAIREMarusevec, P.;
Marusevec, P.
Marusevec, P. in OpenAIREMas-Aguilar, A.;
Mas-Aguilar, A.
Mas-Aguilar, A. in OpenAIREMaurin, G.;
Maurin, G.
Maurin, G. in OpenAIREMazin, D.;
Guillen, E. Mestre;Mazin, D.
Mazin, D. in OpenAIREMicanovic, S.;
Micanovic, S.
Micanovic, S. in OpenAIREMiceli, D.;
Miceli, D.
Miceli, D. in OpenAIREMiener, T.;
Miener, T.
Miener, T. in OpenAIREde Almeida, U. Barres;
de Almeida, U. Barres
de Almeida, U. Barres in OpenAIREMiranda, J. M.;
Miranda, J. M.
Miranda, J. M. in OpenAIREMirzoyan, R.;
Mirzoyan, R.
Mirzoyan, R. in OpenAIREMizuno, T.;
Gonzalez, M. Molero;Mizuno, T.
Mizuno, T. in OpenAIREMolina, E.;
Molina, E.
Molina, E. in OpenAIREMontaruli, T.;
Monteiro, I.;Montaruli, T.
Montaruli, T. in OpenAIREMoralejo, A.;
Moralejo, A.
Moralejo, A. in OpenAIREMorcuende, D.;
Morcuende, D.
Morcuende, D. in OpenAIREMorselli, A.;
Morselli, A.
Morselli, A. in OpenAIREBarrio, J. A.;
Barrio, J. A.
Barrio, J. A. in OpenAIREMrakovcic, K.;
Mrakovcic, K.
Mrakovcic, K. in OpenAIREMurase, K.;
Nagai, A.; Nagataki, S.;Murase, K.
Murase, K. in OpenAIRENakamori, T.;
Nakamori, T.
Nakamori, T. in OpenAIRENickel, L.;
Nickel, L.
Nickel, L. in OpenAIRENievas, M.;
Nievas, M.
Nievas, M. in OpenAIRENishijima, K.;
Nishijima, K.
Nishijima, K. in OpenAIRENoda, K.;
Noda, K.
Noda, K. in OpenAIRENosek, D.;
Nosek, D.
Nosek, D. in OpenAIREBatkovic, I.;
Batkovic, I.
Batkovic, I. in OpenAIRENozaki, S.;
Nozaki, S.
Nozaki, S. in OpenAIREOhishi, M.;
Ohishi, M.
Ohishi, M. in OpenAIREOhtani, Y.;
Ohtani, Y.
Ohtani, Y. in OpenAIREOka, T.;
Okazaki, N.;Okumura, A.;
Orito, R.;Okumura, A.
Okumura, A. in OpenAIREOtero-Santos, J.;
Otero-Santos, J.
Otero-Santos, J. in OpenAIREPalatiello, M.;
Palatiello, M.
Palatiello, M. in OpenAIREPaneque, D.;
Abe, S.; Baxter, J.;Paneque, D.
Paneque, D. in OpenAIREPantaleo, F. R.;
Pantaleo, F. R.
Pantaleo, F. R. in OpenAIREPaoletti, R.;
Paoletti, R.
Paoletti, R. in OpenAIREParedes, J. M.;
Paredes, J. M.
Paredes, J. M. in OpenAIREPech, M.;
Pech, M.
Pech, M. in OpenAIREPecimotika, M.;
Pecimotika, M.
Pecimotika, M. in OpenAIREPeresano, M.;
Peresano, M.
Peresano, M. in OpenAIREPérez, A.;
Pérez, A.
Pérez, A. in OpenAIREPietropaolo, E.;
Pirola, G.;Pietropaolo, E.
Pietropaolo, E. in OpenAIREPlard, C.;
Becerra González, J.; Podobnik, F.;Plard, C.
Plard, C. in OpenAIREPoireau, V.;
Polo, M.; Pons, E.;Poireau, V.
Poireau, V. in OpenAIREPrandini, E.;
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Rhode, W.
Rhode, W. in OpenAIRERibó, M.;
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Rizi, V. in OpenAIRERuiz, J. E.;
Ruiz, J. E.
Ruiz, J. E. in OpenAIRESaito, T.;
Saito, T.
Saito, T. in OpenAIRESakurai, S.;
Sanchez, D. A.;Sakurai, S.
Sakurai, S. in OpenAIREŠarić, T.;
Sato, Y.;Šarić, T.
Šarić, T. in OpenAIREBernardos, M. I.;
Bernardos, M. I.
Bernardos, M. I. in OpenAIRESaturni, F. G.;
Saturni, F. G.
Saturni, F. G. in OpenAIRESchleicher, B.;
Schmuckermaier, F.; Schubert, J. L.;Schleicher, B.
Schleicher, B. in OpenAIRESchussler, F.;
Schweizer, T.; Seglar Arroyo, M.; Silvia, R.;Schussler, F.
Schussler, F. in OpenAIRESitarek, J.;
Sitarek, J.
Sitarek, J. in OpenAIRESliusar, V.;
Medrano, J. Bernete;Sliusar, V.
Sliusar, V. in OpenAIRESpolon, A.;
Spolon, A.
Spolon, A. in OpenAIREStrišković, J.;
Strišković, J.
Strišković, J. in OpenAIREStrzys, M.;
Strzys, M.
Strzys, M. in OpenAIRESuda, Y.;
Suda, Y.
Suda, Y. in OpenAIRESunada, Y.;
Sunada, Y.
Sunada, Y. in OpenAIRETajima, H.;
Tajima, H.
Tajima, H. in OpenAIRETakahashi, H.;
Takahashi, H.
Takahashi, H. in OpenAIRETakahashi, M.;
Takahashi, M.
Takahashi, M. in OpenAIRETakata, J.;
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Takata, J. in OpenAIRETakeishi, R.;
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Takeishi, R. in OpenAIREBerti, A.;
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Berti, A. in OpenAIRETam, P. H. T.;
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Tateishi, D. in OpenAIRETejedor, L. A.;
Tejedor, L. A.
Tejedor, L. A. in OpenAIRETemnikov, P.;
Temnikov, P.
Temnikov, P. in OpenAIRETerada, Y.;
Terada, Y.
Terada, Y. in OpenAIRETerauchi, K.;
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Terauchi, K. in OpenAIRETerzic, T.;
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Walter, R.
Walter, R. in OpenAIREAbstract The Cherenkov Telescope Array (CTA) is a next-generation ground-based observatory for gamma-ray astronomy at very high energies. The Large-Sized Telescope prototype (LST-1) is located at the CTA-North site, on the Canary Island of La Palma. LSTs are designed to provide optimal performance in the lowest part of the energy range covered by CTA, down to ≃20 GeV. LST-1 started performing astronomical observations in 2019 November, during its commissioning phase, and it has been taking data ever since. We present the first LST-1 observations of the Crab Nebula, the standard candle of very-high-energy gamma-ray astronomy, and use them, together with simulations, to assess the performance of the telescope. LST-1 has reached the expected performance during its commissioning period—only a minor adjustment of the preexisting simulations was needed to match the telescope’s behavior. The energy threshold at trigger level is around 20 GeV, rising to ≃30 GeV after data analysis. Performance parameters depend strongly on energy, and on the strength of the gamma-ray selection cuts in the analysis: angular resolution ranges from 0.°12–0.°40, and energy resolution from 15%–50%. Flux sensitivity is around 1.1% of the Crab Nebula flux above 250 GeV for a 50 hr observation (12% for 30 minutes). The spectral energy distribution (in the 0.03–30 TeV range) and the light curve obtained for the Crab Nebula agree with previous measurements, considering statistical and systematic uncertainties. A clear periodic signal is also detected from the pulsar at the center of the Nebula.
Archivio istituziona... arrow_drop_down Archivio istituzionale della ricerca - Università degli Studi di UdineArticle . 2023License: CC BYRecolector de Ciencia Abierta, RECOLECTAArticle . 2023 . Peer-reviewedData sources: Recolector de Ciencia Abierta, RECOLECTARepository of the Czech Academy of SciencesArticle . 2023Data sources: Repository of the Czech Academy of SciencesDiposit Digital de la Universitat de BarcelonaArticle . 2023Data sources: Diposit Digital de la Universitat de BarcelonaIRIS - Università degli Studi di CataniaArticle . 2023Data sources: IRIS - Università degli Studi di Cataniahttps://dx.doi.org/10.48550/ar...Article . 2023License: arXiv Non-Exclusive DistributionData sources: DataciteThe Astrophysical JournalArticle . 2023 . Peer-reviewedData sources: European Union Open Data PortalUniversité Savoie Mont Blanc: HALArticle . 2023Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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visibility 57visibility views 57 download downloads 92 Powered bymore_vert Archivio istituziona... arrow_drop_down Archivio istituzionale della ricerca - Università degli Studi di UdineArticle . 2023License: CC BYRecolector de Ciencia Abierta, RECOLECTAArticle . 2023 . Peer-reviewedData sources: Recolector de Ciencia Abierta, RECOLECTARepository of the Czech Academy of SciencesArticle . 2023Data sources: Repository of the Czech Academy of SciencesDiposit Digital de la Universitat de BarcelonaArticle . 2023Data sources: Diposit Digital de la Universitat de BarcelonaIRIS - Università degli Studi di CataniaArticle . 2023Data sources: IRIS - Università degli Studi di Cataniahttps://dx.doi.org/10.48550/ar...Article . 2023License: arXiv Non-Exclusive DistributionData sources: DataciteThe Astrophysical JournalArticle . 2023 . Peer-reviewedData sources: European Union Open Data PortalUniversité Savoie Mont Blanc: HALArticle . 2023Data sources: Bielefeld Academic Search Engine (BASE)add ClaimPlease grant OpenAIRE to access and update your ORCID works.This Research product is the result of merged Research products in OpenAIRE.
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