Constraints on Galactic Neutrino Emission with Seven Years of IceCube Data

M.G. Aartsen; M. Ackermann; J. Adams; J.A. Aguilar; Markus Ahlers; M. Ahrens; I. Al Samarai; D. Altmann; K. Andeen; T. Anderson; I. Ansseau; G. Anton; C. Arguelles; J. Auffenberg; S. Axani; Morten Ankersen Medici; Michael James Larson; D. Jason Koskinen; Subir Sarkar; M Rameez; CH Collin; R. Cross; S. Blot; B Huber; J. Wood; L. Wille

doi:10.3847/1538-4357/aa8dfb

Constraints on Galactic Neutrino Emission with Seven Years of IceCube Data

M.G. Aartsen, M. Ackermann, J. Adams, J.A. Aguilar, Markus Ahlers, M. Ahrens, I. Al Samarai, D. Altmann, K. Andeen, T. Anderson, I. Ansseau, G. Anton, C. Arguelles, J. Auffenberg, S. Axani, Morten Ankersen Medici, Michael James Larson, D. Jason Koskinen, Subir Sarkar, M RameezCH Collin, R. Cross, S. Blot, B Huber, J. Wood, L. Wille

61 Citations (Scopus)

Abstract

The origins of high-energy astrophysical neutrinos remain a mystery despite extensive searches for their sources. We present constraints from seven years of IceCube Neutrino Observatory muon data on the neutrino flux coming from the Galactic plane. This flux is expected from cosmic-ray interactions with the interstellar medium or near localized sources. Two methods were developed to test for a spatially extended flux from the entire plane, both of which are maximum likelihood fits but with different signal and background modeling techniques. We consider three templates for Galactic neutrino emission based primarily on gamma-ray observations and models that cover a wide range of possibilities. Based on these templates and in the benchmark case of an unbroken E^-2.5 power-law energy spectrum, we set 90% confidence level upper limits, constraining the possible Galactic contribution to the diffuse neutrino flux to be relatively small, less than 14% of the flux reported in Aartsen et al. above 1 TeV. A stacking method is also used to test catalogs of known high-energy Galactic gamma-ray sources.

Original language	English
Article number	67
Journal	Astrophysical Journal
Volume	849
Issue number	1
ISSN	0004-637X
DOIs	https://doi.org/10.3847/1538-4357/aa8dfb
Publication status	Published - 1 Nov 2017

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Aartsen, M. G., Ackermann, M., Adams, J., Aguilar, J. A., Ahlers, M., Ahrens, M., Al Samarai, I., Altmann, D., Andeen, K., Anderson, T., Ansseau, I., Anton, G., Arguelles, C., Auffenberg, J., Axani, S., Medici, M. A., Larson, M. J., Koskinen, D. J., Sarkar, S., ... Wille, L. (2017). Constraints on Galactic Neutrino Emission with Seven Years of IceCube Data. Astrophysical Journal, 849(1), [67]. https://doi.org/10.3847/1538-4357/aa8dfb

Aartsen, MG, Ackermann, M, Adams, J, Aguilar, JA, Ahlers, M, Ahrens, M, Al Samarai, I, Altmann, D, Andeen, K, Anderson, T, Ansseau, I, Anton, G, Arguelles, C, Auffenberg, J, Axani, S, Medici, MA, Larson, MJ, Koskinen, DJ, Sarkar, S, Rameez, M, Collin, CH, Cross, R, Blot, S, Huber, B, Wood, J & Wille, L 2017, 'Constraints on Galactic Neutrino Emission with Seven Years of IceCube Data', Astrophysical Journal, vol. 849, no. 1, 67. https://doi.org/10.3847/1538-4357/aa8dfb

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title = "Constraints on Galactic Neutrino Emission with Seven Years of IceCube Data",

abstract = "The origins of high-energy astrophysical neutrinos remain a mystery despite extensive searches for their sources. We present constraints from seven years of IceCube Neutrino Observatory muon data on the neutrino flux coming from the Galactic plane. This flux is expected from cosmic-ray interactions with the interstellar medium or near localized sources. Two methods were developed to test for a spatially extended flux from the entire plane, both of which are maximum likelihood fits but with different signal and background modeling techniques. We consider three templates for Galactic neutrino emission based primarily on gamma-ray observations and models that cover a wide range of possibilities. Based on these templates and in the benchmark case of an unbroken E-2.5 power-law energy spectrum, we set 90% confidence level upper limits, constraining the possible Galactic contribution to the diffuse neutrino flux to be relatively small, less than 14% of the flux reported in Aartsen et al. above 1 TeV. A stacking method is also used to test catalogs of known high-energy Galactic gamma-ray sources.",

author = "M.G. Aartsen and M. Ackermann and J. Adams and J.A. Aguilar and Markus Ahlers and M. Ahrens and {Al Samarai}, I. and D. Altmann and K. Andeen and T. Anderson and I. Ansseau and G. Anton and C. Arguelles and J. Auffenberg and S. Axani and Medici, {Morten Ankersen} and Larson, {Michael James} and Koskinen, {D. Jason} and Subir Sarkar and M Rameez and CH Collin and R. Cross and S. Blot and B Huber and J. Wood and L. Wille",

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AU - Ahlers, Markus

AU - Ahrens, M.

AU - Al Samarai, I.

AU - Altmann, D.

AU - Andeen, K.

AU - Anderson, T.

AU - Ansseau, I.

AU - Anton, G.

AU - Arguelles, C.

AU - Auffenberg, J.

AU - Axani, S.

AU - Medici, Morten Ankersen

AU - Larson, Michael James

AU - Koskinen, D. Jason

AU - Sarkar, Subir

AU - Rameez, M

AU - Collin, CH

AU - Cross, R.

AU - Blot, S.

AU - Huber, B

AU - Wood, J.

AU - Wille, L.

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N2 - The origins of high-energy astrophysical neutrinos remain a mystery despite extensive searches for their sources. We present constraints from seven years of IceCube Neutrino Observatory muon data on the neutrino flux coming from the Galactic plane. This flux is expected from cosmic-ray interactions with the interstellar medium or near localized sources. Two methods were developed to test for a spatially extended flux from the entire plane, both of which are maximum likelihood fits but with different signal and background modeling techniques. We consider three templates for Galactic neutrino emission based primarily on gamma-ray observations and models that cover a wide range of possibilities. Based on these templates and in the benchmark case of an unbroken E-2.5 power-law energy spectrum, we set 90% confidence level upper limits, constraining the possible Galactic contribution to the diffuse neutrino flux to be relatively small, less than 14% of the flux reported in Aartsen et al. above 1 TeV. A stacking method is also used to test catalogs of known high-energy Galactic gamma-ray sources.

AB - The origins of high-energy astrophysical neutrinos remain a mystery despite extensive searches for their sources. We present constraints from seven years of IceCube Neutrino Observatory muon data on the neutrino flux coming from the Galactic plane. This flux is expected from cosmic-ray interactions with the interstellar medium or near localized sources. Two methods were developed to test for a spatially extended flux from the entire plane, both of which are maximum likelihood fits but with different signal and background modeling techniques. We consider three templates for Galactic neutrino emission based primarily on gamma-ray observations and models that cover a wide range of possibilities. Based on these templates and in the benchmark case of an unbroken E-2.5 power-law energy spectrum, we set 90% confidence level upper limits, constraining the possible Galactic contribution to the diffuse neutrino flux to be relatively small, less than 14% of the flux reported in Aartsen et al. above 1 TeV. A stacking method is also used to test catalogs of known high-energy Galactic gamma-ray sources.

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DO - 10.3847/1538-4357/aa8dfb

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JO - Astrophysical Journal

JF - Astrophysical Journal

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ER -

Constraints on Galactic Neutrino Emission with Seven Years of IceCube Data

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