Constraints on the cosmic-ray density gradient beyond the solar circle from fermi γ-ray observations of the third galactic quadrant

M. Ackermann; M. Ajello; L. Baldini; J. Ballet; G. Barbiellini; D. Bastieri; K. Bechtol; R. Bellazzini; B. Berenji; E. D. Bloom; E. Bonamente; A. W. Borgland; T. J. Brandt; J. Bregeon; A. Brez; M. Brigida; P. Bruel; R. Buehler; S. Buson; G. A. Caliandro; R. A. Cameron; P. A. Caraveo; J. M. Casandjian; C. Cecchi; E. Charles; A. Chekhtman; J. Chiang; S. Ciprini; R. Claus; J. Cohen-Tanugi; J. Conrad; C. D. Dermer; F. De Palma; S. W. Digel; P. S. Drell; R. Dubois; C. Favuzzi; E. C. Ferrara; W. B. Focke; Y. Fukazawa; S. Funk; P. Fusco; F. Gargano; S. Germani; N. Giglietto; F. Giordano; M. Giroletti; T. Glanzman; G. Godfrey; I. A. Grenier; S. Guiriec; D. Hadasch; Y. Hanabata; A. K. Harding; K. Hayashi; M. Hayashida; R. E. Hughes; R. Itoh; G. J́ohannesson; A. S. Johnson; W. N. Johnson; T. Kamae; H. Katagiri; J. Kataoka; J. Kn̈odlseder; M. Kuss; J. Lande; L. Latronico; S. H. Lee; M. Llena Garde; F. Longo; F. Loparco; M. N. Lovellette; P. Lubrano; A. Makeev; P. Martin; M. N. Mazziotta; J. E. McEnery; J. Mehault; P. F. Michelson; T. Mizuno; C. Monte; M. E. Monzani; A. Morselli; I. V. Moskalenko; S. Murgia; M. Naumann-Godo; S. Nishino; P. L. Nolan; J. P. Norris; E. Nuss; T. Ohsugi; A. Okumura; N. Omodei; E. Orlando; J. F. Ormes; M. Ozaki; D. Parent; V. Pelassa; M. Pepe; M. Pesce-Rollins; F. Piron; T. A. Porter; S. Raiǹo; R. Rando; M. Razzano; A. Reimer; O. Reimer; J. Ripken; T. Sada; H. F.W. Sadrozinski; C. Sgr̀o; E. J. Siskind; G. Spandre; P. Spinelli; M. S. Strickman; A. W. Strong; D. J. Suson; H. Takahashi; T. Takahashi; T. Tanaka; J. B. Thayer; D. J. Thompson; L. Tibaldo; D. F. Torres; A. Tramacere; Y. Uchiyama; T. Uehara; T. L. Usher; J. Vandenbroucke; V. Vasileiou; N. Vilchez; V. Vitale; A. E. Vladimirov; A. P. Waite; P. Wang; K. S. Wood; Z. Yang; M. Ziegler

doi:10.1088/0004-637X/726/2/81

Constraints on the cosmic-ray density gradient beyond the solar circle from fermi γ-ray observations of the third galactic quadrant

M. Ackermann
, M. Ajello
, L. Baldini
, J. Ballet
, G. Barbiellini
, D. Bastieri
, K. Bechtol
, R. Bellazzini
, B. Berenji
, E. D. Bloom
, E. Bonamente
, A. W. Borgland
, T. J. Brandt
, J. Bregeon
, A. Brez
, M. Brigida
, P. Bruel
, R. Buehler
, S. Buson
, G. A. Caliandro

R. A. Cameron, P. A. Caraveo, J. M. Casandjian, C. Cecchi, E. Charles, A. Chekhtman, J. Chiang, S. Ciprini, R. Claus, J. Cohen-Tanugi, J. Conrad, C. D. Dermer, F. De Palma, S. W. Digel, P. S. Drell, R. Dubois, C. Favuzzi, E. C. Ferrara, W. B. Focke, Y. Fukazawa, S. Funk, P. Fusco, F. Gargano, S. Germani, N. Giglietto, F. Giordano, M. Giroletti, T. Glanzman, G. Godfrey, I. A. Grenier, S. Guiriec, D. Hadasch, Y. Hanabata, A. K. Harding, K. Hayashi, M. Hayashida, R. E. Hughes, R. Itoh, G. J́ohannesson, A. S. Johnson, W. N. Johnson, T. Kamae, H. Katagiri, J. Kataoka, J. Kn̈odlseder, M. Kuss, J. Lande, L. Latronico, S. H. Lee, M. Llena Garde, F. Longo, F. Loparco, M. N. Lovellette, P. Lubrano, A. Makeev, P. Martin, M. N. Mazziotta, J. E. McEnery, J. Mehault, P. F. Michelson, T. Mizuno, C. Monte, M. E. Monzani, A. Morselli, I. V. Moskalenko, S. Murgia, M. Naumann-Godo, S. Nishino, P. L. Nolan, J. P. Norris, E. Nuss, T. Ohsugi, A. Okumura, N. Omodei, E. Orlando, J. F. Ormes, M. Ozaki, D. Parent, V. Pelassa, M. Pepe, M. Pesce-Rollins, F. Piron, T. A. Porter, S. Raiǹo, R. Rando, M. Razzano, A. Reimer, O. Reimer, J. Ripken, T. Sada, H. F.W. Sadrozinski, C. Sgr̀o, E. J. Siskind, G. Spandre, P. Spinelli, M. S. Strickman, A. W. Strong, D. J. Suson, H. Takahashi, T. Takahashi, T. Tanaka, J. B. Thayer, D. J. Thompson, L. Tibaldo, D. F. Torres, A. Tramacere, Y. Uchiyama, T. Uehara, T. L. Usher, J. Vandenbroucke, V. Vasileiou, N. Vilchez, V. Vitale, A. E. Vladimirov, A. P. Waite, P. Wang, K. S. Wood, Z. Yang, M. Ziegler

Stanford University
Istituto Nazionale di Fisica Nucleare, Sezione di Pisa
Universite Paris-Saclay
INFN Sezione di Trieste
University of Trieste
INFN
University of Padova
INFN Sezione di Perugia
University of Perugia
CNRS
The Ohio State University
Politecnico di Bari
INFN Sezione di Bari
University of São Paulo
INAF Istituto di Astrofisica Spaziale e Fisica Cosmica, Milan
Naval Research Laboratory
George Mason University
Laboratoire Univers et Particules de Montpellier
Stockholm University
Oskar Klein Centre
NASA Goddard Space Flight Center
Hiroshima University
INAF Istituto di Radioastronomia
Center for Space Plasma and Aeronomic Research
Waseda University
Max Planck Institut für Extraterrestrische Physik
University of Maryland, College Park
Sezione di Roma
University of Denver
ISAS/JAXA
Medical University of Innsbruck
University of California at Santa Cruz
NYCB Real-Time Computing Inc.
Purdue University Northwest
Pompeu Fabra University (UPF)
Consorzio Interuniversitario per la Fisica Spaziale (CIFS)
University of Geneva
Biochemical and Environmental Engineering
University of Rome “Tor Vergata”

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We report an analysis of the interstellar γ-ray emission in the third Galactic quadrant measured by the Fermi Large Area Telescope. The window encompassing the Galactic plane from longitude 210° to 250° has kinematically well-defined segments of the Local and the Perseus arms, suitable to study the cosmic-ray (CR) densities across the outer Galaxy. We measure no large gradient with Galactocentric distance of the γ-ray emissivities per interstellar H atom over the regions sampled in this study. The gradient depends, however, on the optical depth correction applied to derive the H i column densities. No significant variations are found in the interstellar spectra in the outer Galaxy, indicating similar shapes of the CR spectrum up to the Perseus arm for particles with GeV to tens of GeV energies. The emissivity as a function of Galactocentric radius does not show a large enhancement in the spiral arms with respect to the interarm region. The measured emissivity gradient is flatter than expectations based on a CR propagation model using the radial distribution of supernova remnants and uniform diffusion properties. In this context, observations require a larger halo size and/or a flatter CR source distribution than usually assumed. The molecular mass calibrating ratio, XCO = N(H₂)/WCO, is found to be (2.08±0.11)×1020 cm ^-2(K km s^-1)^-1 in the Local arm clouds and is not significantly sensitive to the choice of Hi spin temperature. No significant variations are found for clouds in the interarm region.

langue originale	Anglais
journal	Astrophysical Journal
Volume	726
Numéro de publication	2
Les DOIs	https://doi.org/10.1088/0004-637X/726/2/81
état	Publié - 10 janv. 2011

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10.1088/0004-637X/726/2/81

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Ackermann, M., Ajello, M., Baldini, L., Ballet, J., Barbiellini, G., Bastieri, D., Bechtol, K., Bellazzini, R., Berenji, B., Bloom, E. D., Bonamente, E., Borgland, A. W., Brandt, T. J., Bregeon, J., Brez, A., Brigida, M., Bruel, P., Buehler, R., Buson, S., ... Ziegler, M. (2011). Constraints on the cosmic-ray density gradient beyond the solar circle from fermi γ-ray observations of the third galactic quadrant. Astrophysical Journal, 726(2). https://doi.org/10.1088/0004-637X/726/2/81

@article{4d6d28dc62534f62b7d91f9ce8ef6b12,

title = "Constraints on the cosmic-ray density gradient beyond the solar circle from fermi γ-ray observations of the third galactic quadrant",

abstract = "We report an analysis of the interstellar γ-ray emission in the third Galactic quadrant measured by the Fermi Large Area Telescope. The window encompassing the Galactic plane from longitude 210° to 250° has kinematically well-defined segments of the Local and the Perseus arms, suitable to study the cosmic-ray (CR) densities across the outer Galaxy. We measure no large gradient with Galactocentric distance of the γ-ray emissivities per interstellar H atom over the regions sampled in this study. The gradient depends, however, on the optical depth correction applied to derive the H i column densities. No significant variations are found in the interstellar spectra in the outer Galaxy, indicating similar shapes of the CR spectrum up to the Perseus arm for particles with GeV to tens of GeV energies. The emissivity as a function of Galactocentric radius does not show a large enhancement in the spiral arms with respect to the interarm region. The measured emissivity gradient is flatter than expectations based on a CR propagation model using the radial distribution of supernova remnants and uniform diffusion properties. In this context, observations require a larger halo size and/or a flatter CR source distribution than usually assumed. The molecular mass calibrating ratio, XCO = N(H2)/WCO, is found to be (2.08±0.11)×1020 cm -2(K km s-1)-1 in the Local arm clouds and is not significantly sensitive to the choice of Hi spin temperature. No significant variations are found for clouds in the interarm region.",

keywords = "Cosmic rays, Gamma rays: ISM, ISM: general",

author = "M. Ackermann and M. Ajello and L. Baldini and J. Ballet and G. Barbiellini and D. Bastieri and K. Bechtol and R. Bellazzini and B. Berenji and Bloom, \{E. D.\} and E. Bonamente and Borgland, \{A. W.\} and Brandt, \{T. J.\} and J. Bregeon and A. Brez and M. Brigida and P. Bruel and R. Buehler and S. Buson and Caliandro, \{G. A.\} and Cameron, \{R. A.\} and Caraveo, \{P. A.\} and Casandjian, \{J. M.\} and C. Cecchi and E. Charles and A. Chekhtman and J. Chiang and S. Ciprini and R. Claus and J. Cohen-Tanugi and J. Conrad and Dermer, \{C. D.\} and \{De Palma\}, F. and Digel, \{S. W.\} and Drell, \{P. S.\} and R. Dubois and C. Favuzzi and Ferrara, \{E. C.\} and Focke, \{W. B.\} and Y. Fukazawa and S. Funk and P. Fusco and F. Gargano and S. Germani and N. Giglietto and F. Giordano and M. Giroletti and T. Glanzman and G. Godfrey and Grenier, \{I. A.\} and S. Guiriec and D. Hadasch and Y. Hanabata and Harding, \{A. K.\} and K. Hayashi and M. Hayashida and Hughes, \{R. E.\} and R. Itoh and G. {\'J}ohannesson and Johnson, \{A. S.\} and Johnson, \{W. N.\} and T. Kamae and H. Katagiri and J. Kataoka and J. K{\"n}odlseder and M. Kuss and J. Lande and L. Latronico and Lee, \{S. H.\} and Garde, \{M. Llena\} and F. Longo and F. Loparco and Lovellette, \{M. N.\} and P. Lubrano and A. Makeev and P. Martin and Mazziotta, \{M. N.\} and McEnery, \{J. E.\} and J. Mehault and Michelson, \{P. F.\} and T. Mizuno and C. Monte and Monzani, \{M. E.\} and A. Morselli and Moskalenko, \{I. V.\} and S. Murgia and M. Naumann-Godo and S. Nishino and Nolan, \{P. L.\} and Norris, \{J. P.\} and E. Nuss and T. Ohsugi and A. Okumura and N. Omodei and E. Orlando and Ormes, \{J. F.\} and M. Ozaki and D. Parent and V. Pelassa and M. Pepe and M. Pesce-Rollins and F. Piron and Porter, \{T. A.\} and S. Raiǹo and R. Rando and M. Razzano and A. Reimer and O. Reimer and J. Ripken and T. Sada and Sadrozinski, \{H. F.W.\} and C. Sg{\`r}o and Siskind, \{E. J.\} and G. Spandre and P. Spinelli and Strickman, \{M. S.\} and Strong, \{A. W.\} and Suson, \{D. J.\} and H. Takahashi and T. Takahashi and T. Tanaka and Thayer, \{J. B.\} and Thompson, \{D. J.\} and L. Tibaldo and Torres, \{D. F.\} and A. Tramacere and Y. Uchiyama and T. Uehara and Usher, \{T. L.\} and J. Vandenbroucke and V. Vasileiou and N. Vilchez and V. Vitale and Vladimirov, \{A. E.\} and Waite, \{A. P.\} and P. Wang and Wood, \{K. S.\} and Z. Yang and M. Ziegler",

year = "2011",

month = jan,

day = "10",

doi = "10.1088/0004-637X/726/2/81",

language = "English",

volume = "726",

journal = "Astrophysical Journal",

issn = "0004-637X",

number = "2",

}

Ackermann, M, Ajello, M, Baldini, L, Ballet, J, Barbiellini, G, Bastieri, D, Bechtol, K, Bellazzini, R, Berenji, B, Bloom, ED, Bonamente, E, Borgland, AW, Brandt, TJ, Bregeon, J, Brez, A, Brigida, M, Bruel, P, Buehler, R, Buson, S, Caliandro, GA, Cameron, RA, Caraveo, PA, Casandjian, JM, Cecchi, C, Charles, E, Chekhtman, A, Chiang, J, Ciprini, S, Claus, R, Cohen-Tanugi, J, Conrad, J, Dermer, CD, De Palma, F, Digel, SW, Drell, PS, Dubois, R, Favuzzi, C, Ferrara, EC, Focke, WB, Fukazawa, Y, Funk, S, Fusco, P, Gargano, F, Germani, S, Giglietto, N, Giordano, F, Giroletti, M, Glanzman, T, Godfrey, G, Grenier, IA, Guiriec, S, Hadasch, D, Hanabata, Y, Harding, AK, Hayashi, K, Hayashida, M, Hughes, RE, Itoh, R, J́ohannesson, G, Johnson, AS, Johnson, WN, Kamae, T, Katagiri, H, Kataoka, J, Kn̈odlseder, J, Kuss, M, Lande, J, Latronico, L, Lee, SH, Garde, ML, Longo, F, Loparco, F, Lovellette, MN, Lubrano, P, Makeev, A, Martin, P, Mazziotta, MN, McEnery, JE, Mehault, J, Michelson, PF, Mizuno, T, Monte, C, Monzani, ME, Morselli, A, Moskalenko, IV, Murgia, S, Naumann-Godo, M, Nishino, S, Nolan, PL, Norris, JP, Nuss, E, Ohsugi, T, Okumura, A, Omodei, N, Orlando, E, Ormes, JF, Ozaki, M, Parent, D, Pelassa, V, Pepe, M, Pesce-Rollins, M, Piron, F, Porter, TA, Raiǹo, S, Rando, R, Razzano, M, Reimer, A, Reimer, O, Ripken, J, Sada, T, Sadrozinski, HFW, Sgr̀o, C, Siskind, EJ, Spandre, G, Spinelli, P, Strickman, MS, Strong, AW, Suson, DJ, Takahashi, H, Takahashi, T, Tanaka, T, Thayer, JB, Thompson, DJ, Tibaldo, L, Torres, DF, Tramacere, A, Uchiyama, Y, Uehara, T, Usher, TL, Vandenbroucke, J, Vasileiou, V, Vilchez, N, Vitale, V, Vladimirov, AE, Waite, AP, Wang, P, Wood, KS, Yang, Z & Ziegler, M 2011, 'Constraints on the cosmic-ray density gradient beyond the solar circle from fermi γ-ray observations of the third galactic quadrant', Astrophysical Journal, VOL. 726, Numéro 2. https://doi.org/10.1088/0004-637X/726/2/81

TY - JOUR

T1 - Constraints on the cosmic-ray density gradient beyond the solar circle from fermi γ-ray observations of the third galactic quadrant

AU - Ackermann, M.

AU - Ajello, M.

AU - Baldini, L.

AU - Ballet, J.

AU - Barbiellini, G.

AU - Bastieri, D.

AU - Bechtol, K.

AU - Bellazzini, R.

AU - Berenji, B.

AU - Bloom, E. D.

AU - Bonamente, E.

AU - Borgland, A. W.

AU - Brandt, T. J.

AU - Bregeon, J.

AU - Brez, A.

AU - Brigida, M.

AU - Bruel, P.

AU - Buehler, R.

AU - Buson, S.

AU - Caliandro, G. A.

AU - Cameron, R. A.

AU - Caraveo, P. A.

AU - Casandjian, J. M.

AU - Cecchi, C.

AU - Charles, E.

AU - Chekhtman, A.

AU - Chiang, J.

AU - Ciprini, S.

AU - Claus, R.

AU - Cohen-Tanugi, J.

AU - Conrad, J.

AU - Dermer, C. D.

AU - De Palma, F.

AU - Digel, S. W.

AU - Drell, P. S.

AU - Dubois, R.

AU - Favuzzi, C.

AU - Ferrara, E. C.

AU - Focke, W. B.

AU - Fukazawa, Y.

AU - Funk, S.

AU - Fusco, P.

AU - Gargano, F.

AU - Germani, S.

AU - Giglietto, N.

AU - Giordano, F.

AU - Giroletti, M.

AU - Glanzman, T.

AU - Godfrey, G.

AU - Grenier, I. A.

AU - Guiriec, S.

AU - Hadasch, D.

AU - Hanabata, Y.

AU - Harding, A. K.

AU - Hayashi, K.

AU - Hayashida, M.

AU - Hughes, R. E.

AU - Itoh, R.

AU - J́ohannesson, G.

AU - Johnson, A. S.

AU - Johnson, W. N.

AU - Kamae, T.

AU - Katagiri, H.

AU - Kataoka, J.

AU - Kn̈odlseder, J.

AU - Kuss, M.

AU - Lande, J.

AU - Latronico, L.

AU - Lee, S. H.

AU - Garde, M. Llena

AU - Longo, F.

AU - Loparco, F.

AU - Lovellette, M. N.

AU - Lubrano, P.

AU - Makeev, A.

AU - Martin, P.

AU - Mazziotta, M. N.

AU - McEnery, J. E.

AU - Mehault, J.

AU - Michelson, P. F.

AU - Mizuno, T.

AU - Monte, C.

AU - Monzani, M. E.

AU - Morselli, A.

AU - Moskalenko, I. V.

AU - Murgia, S.

AU - Naumann-Godo, M.

AU - Nishino, S.

AU - Nolan, P. L.

AU - Norris, J. P.

AU - Nuss, E.

AU - Ohsugi, T.

AU - Okumura, A.

AU - Omodei, N.

AU - Orlando, E.

AU - Ormes, J. F.

AU - Ozaki, M.

AU - Parent, D.

AU - Pelassa, V.

AU - Pepe, M.

AU - Pesce-Rollins, M.

AU - Piron, F.

AU - Porter, T. A.

AU - Raiǹo, S.

AU - Rando, R.

AU - Razzano, M.

AU - Reimer, A.

AU - Reimer, O.

AU - Ripken, J.

AU - Sada, T.

AU - Sadrozinski, H. F.W.

AU - Sgr̀o, C.

AU - Siskind, E. J.

AU - Spandre, G.

AU - Spinelli, P.

AU - Strickman, M. S.

AU - Strong, A. W.

AU - Suson, D. J.

AU - Takahashi, H.

AU - Takahashi, T.

AU - Tanaka, T.

AU - Thayer, J. B.

AU - Thompson, D. J.

AU - Tibaldo, L.

AU - Torres, D. F.

AU - Tramacere, A.

AU - Uchiyama, Y.

AU - Uehara, T.

AU - Usher, T. L.

AU - Vandenbroucke, J.

AU - Vasileiou, V.

AU - Vilchez, N.

AU - Vitale, V.

AU - Vladimirov, A. E.

AU - Waite, A. P.

AU - Wang, P.

AU - Wood, K. S.

AU - Yang, Z.

AU - Ziegler, M.

PY - 2011/1/10

Y1 - 2011/1/10

N2 - We report an analysis of the interstellar γ-ray emission in the third Galactic quadrant measured by the Fermi Large Area Telescope. The window encompassing the Galactic plane from longitude 210° to 250° has kinematically well-defined segments of the Local and the Perseus arms, suitable to study the cosmic-ray (CR) densities across the outer Galaxy. We measure no large gradient with Galactocentric distance of the γ-ray emissivities per interstellar H atom over the regions sampled in this study. The gradient depends, however, on the optical depth correction applied to derive the H i column densities. No significant variations are found in the interstellar spectra in the outer Galaxy, indicating similar shapes of the CR spectrum up to the Perseus arm for particles with GeV to tens of GeV energies. The emissivity as a function of Galactocentric radius does not show a large enhancement in the spiral arms with respect to the interarm region. The measured emissivity gradient is flatter than expectations based on a CR propagation model using the radial distribution of supernova remnants and uniform diffusion properties. In this context, observations require a larger halo size and/or a flatter CR source distribution than usually assumed. The molecular mass calibrating ratio, XCO = N(H2)/WCO, is found to be (2.08±0.11)×1020 cm -2(K km s-1)-1 in the Local arm clouds and is not significantly sensitive to the choice of Hi spin temperature. No significant variations are found for clouds in the interarm region.

AB - We report an analysis of the interstellar γ-ray emission in the third Galactic quadrant measured by the Fermi Large Area Telescope. The window encompassing the Galactic plane from longitude 210° to 250° has kinematically well-defined segments of the Local and the Perseus arms, suitable to study the cosmic-ray (CR) densities across the outer Galaxy. We measure no large gradient with Galactocentric distance of the γ-ray emissivities per interstellar H atom over the regions sampled in this study. The gradient depends, however, on the optical depth correction applied to derive the H i column densities. No significant variations are found in the interstellar spectra in the outer Galaxy, indicating similar shapes of the CR spectrum up to the Perseus arm for particles with GeV to tens of GeV energies. The emissivity as a function of Galactocentric radius does not show a large enhancement in the spiral arms with respect to the interarm region. The measured emissivity gradient is flatter than expectations based on a CR propagation model using the radial distribution of supernova remnants and uniform diffusion properties. In this context, observations require a larger halo size and/or a flatter CR source distribution than usually assumed. The molecular mass calibrating ratio, XCO = N(H2)/WCO, is found to be (2.08±0.11)×1020 cm -2(K km s-1)-1 in the Local arm clouds and is not significantly sensitive to the choice of Hi spin temperature. No significant variations are found for clouds in the interarm region.

KW - Cosmic rays

KW - Gamma rays: ISM

KW - ISM: general

UR - https://www.scopus.com/pages/publications/84891186447

U2 - 10.1088/0004-637X/726/2/81

DO - 10.1088/0004-637X/726/2/81

M3 - Article

AN - SCOPUS:84891186447

SN - 0004-637X

VL - 726

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 2

ER -

Constraints on the cosmic-ray density gradient beyond the solar circle from fermi γ-ray observations of the third galactic quadrant

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