Development of a general analysis and unfolding scheme and its application to measure the energy spectrum of atmospheric neutrinos with IceCube: IceCube Collaboration

M. G. Aartsen; M. Ackermann; J. Adams; J. A. Aguilar; M. Ahlers; M. Ahrens; D. Altmann; T. Anderson; C. Arguelles; T. C. Arlen; J. Auffenberg; X. Bai; S. W. Barwick; V. Baum; J. J. Beatty; J. Becker Tjus; K. H. Becker; S. BenZvi; P. Berghaus; D. Berley; E. Bernardini; A. Bernhard; D. Z. Besson; G. Binder; D. Bindig; M. Bissok; E. Blaufuss; J. Blumenthal; D. J. Boersma; C. Bohm; F. Bos; D. Bose; S. Böser; O. Botner; L. Brayeur; H. P. Bretz; A. M. Brown; J. Casey; M. Casier; E. Cheung; D. Chirkin; A. Christov; B. Christy; K. Clark; L. Classen; F. Clevermann; S. Coenders; D. F. Cowen; A. H. Cruz Silva; M. Danninger; J. Daughhetee; J. C. Davis; M. Day; J. P.A.M. de André; C. De Clercq; S. De Ridder; P. Desiati; K. D. de Vries; M. de With; T. DeYoung; J. C. Díaz-Vélez; M. Dunkman; R. Eagan; B. Eberhardt; B. Eichmann; J. Eisch; S. Euler; P. A. Evenson; O. Fadiran; A. R. Fazely; A. Fedynitch; J. Feintzeig; J. Felde; T. Feusels; K. Filimonov; C. Finley; T. Fischer-Wasels; S. Flis; A. Franckowiak; K. Frantzen; T. Fuchs; T. K. Gaisser; R. Gaior; J. Gallagher; L. Gerhardt; D. Gier; L. Gladstone; T. Glüsenkamp; A. Goldschmidt; G. Golup; J. G. Gonzalez; J. A. Goodman; D. Góra; D. Grant; P. Gretskov; J. C. Groh; A. Groß; C. Ha; C. Haack; A. Haj Ismail; P. Hallen; A. Hallgren; F. Halzen; K. Hanson; D. Hebecker; D. Heereman; D. Heinen; K. Helbing; R. Hellauer; D. Hellwig; S. Hickford; G. C. Hill; K. D. Hoffman; R. Hoffmann; A. Homeier; K. Hoshina; F. Huang; W. Huelsnitz; P. O. Hulth; K. Hultqvist; S. Hussain; A. Ishihara; E. Jacobi; J. Jacobsen; K. Jagielski; G. S. Japaridze; K. Jero; O. Jlelati; M. Jurkovic; B. Kaminsky; A. Kappes; T. Karg; A. Karle; M. Kauer; A. Keivani; J. L. Kelley; A. Kheirandish; J. Kiryluk; J. Kläs; S. R. Klein; J. H. Köhne; G. Kohnen; H. Kolanoski; A. Koob; L. Köpke; C. Kopper; S. Kopper; D. J. Koskinen; M. Kowalski; A. Kriesten; K. Krings; G. Kroll; M. Kroll; J. Kunnen; N. Kurahashi; T. Kuwabara; M. Labare; D. T. Larsen; M. J. Larson; M. Lesiak-Bzdak; M. Leuermann; J. Leute; J. Lünemann; J. Madsen; G. Maggi; R. Maruyama; K. Mase; H. S. Matis; R. Maunu; F. McNally; K. Meagher; M. Medici; A. Meli; T. Meures; S. Miarecki; E. Middell; E. Middlemas; N. Milke; J. Miller; L. Mohrmann; T. Montaruli; R. Morse; R. Nahnhauer; U. Naumann; H. Niederhausen; S. C. Nowicki; D. R. Nygren; A. Obertacke; S. Odrowski; A. Olivas; A. Omairat; A. O’Murchadha; T. Palczewski; L. Paul; Penek; J. A. Pepper; C. Pérez de los Heros; C. Pfendner; D. Pieloth; E. Pinat; J. Posselt; P. B. Price; G. T. Przybylski; J. Pütz; M. Quinnan; L. Rädel; M. Rameez; K. Rawlins; P. Redl; I. Rees; R. Reimann; M. Relich; E. Resconi; W. Rhode; M. Richman; B. Riedel; S. Robertson; J. P. Rodrigues; M. Rongen; C. Rott; T. Ruhe; B. Ruzybayev; D. Ryckbosch; S. M. Saba; H. G. Sander; J. Sandroos; M. Santander; S. Sarkar; K. Schatto; F. Scheriau; T. Schmidt; M. Schmitz; S. Schoenen; S. Schöneberg; A. Schönwald; A. Schukraft; L. Schulte; O. Schulz; D. Seckel; Y. Sestayo; S. Seunarine; R. Shanidze; M. W.E. Smith; D. Soldin; G. M. Spiczak; C. Spiering; M. Stamatikos; T. Stanev; N. A. Stanisha; A. Stasik; T. Stezelberger; R. G. Stokstad; A. Stößl; E. A. Strahler; R. Ström; N. L. Strotjohann; G. W. Sullivan; H. Taavola; I. Taboada; A. Tamburro; A. Tepe; S. Ter-Antonyan; A. Terliuk; G. Tešić; S. Tilav; P. A. Toale; M. N. Tobin; D. Tosi; M. Tselengidou; E. Unger; M. Usner; S. Vallecorsa; N. van Eijndhoven; J. Vandenbroucke; J. van Santen; M. Vehring; M. Voge; M. Vraeghe; C. Walck; M. Wallraff; Ch Weaver; M. Wellons; C. Wendt; S. Westerhoff; B. J. Whelan; N. Whitehorn; C. Wichary; K. Wiebe; C. H. Wiebusch; D. R. Williams; H. Wissing; M. Wolf; T. R. Wood; K. Woschnagg; D. L. Xu; X. W. Xu; J. P. Yanez; G. Yodh; S. Yoshida; P. Zarzhitsky; J. Ziemann; S. Zierke; M. Zoll; K. Morik

doi:10.1140/epjc/s10052-015-3330-z

Development of a general analysis and unfolding scheme and its application to measure the energy spectrum of atmospheric neutrinos with IceCube: IceCube Collaboration

M. G. Aartsen
, M. Ackermann
, J. Adams
, J. A. Aguilar
, M. Ahlers
, M. Ahrens
, D. Altmann
, T. Anderson
, C. Arguelles
, T. C. Arlen
, J. Auffenberg
, X. Bai
, S. W. Barwick
, V. Baum
, J. J. Beatty
, J. Becker Tjus
, K. H. Becker
, S. BenZvi
, P. Berghaus
, D. Berley

E. Bernardini, A. Bernhard, D. Z. Besson, G. Binder, D. Bindig, M. Bissok, E. Blaufuss, J. Blumenthal, D. J. Boersma, C. Bohm, F. Bos, D. Bose, S. Böser, O. Botner, L. Brayeur, H. P. Bretz, A. M. Brown, J. Casey, M. Casier, E. Cheung, D. Chirkin, A. Christov, B. Christy, K. Clark, L. Classen, F. Clevermann, S. Coenders, D. F. Cowen, A. H. Cruz Silva, M. Danninger, J. Daughhetee, J. C. Davis, M. Day, J. P.A.M. de André, C. De Clercq, S. De Ridder, P. Desiati, K. D. de Vries, M. de With, T. DeYoung, J. C. Díaz-Vélez, M. Dunkman, R. Eagan, B. Eberhardt, B. Eichmann, J. Eisch, S. Euler, P. A. Evenson, O. Fadiran, A. R. Fazely, A. Fedynitch, J. Feintzeig, J. Felde, T. Feusels, K. Filimonov, C. Finley, T. Fischer-Wasels, S. Flis, A. Franckowiak, K. Frantzen, T. Fuchs, T. K. Gaisser, R. Gaior, J. Gallagher, L. Gerhardt, D. Gier, L. Gladstone, T. Glüsenkamp, A. Goldschmidt, G. Golup, J. G. Gonzalez, J. A. Goodman, D. Góra, D. Grant, P. Gretskov, J. C. Groh, A. Groß, C. Ha, C. Haack, A. Haj Ismail, P. Hallen, A. Hallgren, F. Halzen, K. Hanson, D. Hebecker, D. Heereman, D. Heinen, K. Helbing, R. Hellauer, D. Hellwig, S. Hickford, G. C. Hill, K. D. Hoffman, R. Hoffmann, A. Homeier, K. Hoshina, F. Huang, W. Huelsnitz, P. O. Hulth, K. Hultqvist, S. Hussain, A. Ishihara, E. Jacobi, J. Jacobsen, K. Jagielski, G. S. Japaridze, K. Jero, O. Jlelati, M. Jurkovic, B. Kaminsky, A. Kappes, T. Karg, A. Karle, M. Kauer, A. Keivani, J. L. Kelley, A. Kheirandish, J. Kiryluk, J. Kläs, S. R. Klein, J. H. Köhne, G. Kohnen, H. Kolanoski, A. Koob, L. Köpke, C. Kopper, S. Kopper, D. J. Koskinen, M. Kowalski, A. Kriesten, K. Krings, G. Kroll, M. Kroll, J. Kunnen, N. Kurahashi, T. Kuwabara, M. Labare, D. T. Larsen, M. J. Larson, M. Lesiak-Bzdak, M. Leuermann, J. Leute, J. Lünemann, J. Madsen, G. Maggi, R. Maruyama, K. Mase, H. S. Matis, R. Maunu, F. McNally, K. Meagher, M. Medici, A. Meli, T. Meures, S. Miarecki, E. Middell, E. Middlemas, N. Milke, J. Miller, L. Mohrmann, T. Montaruli, R. Morse, R. Nahnhauer, U. Naumann, H. Niederhausen, S. C. Nowicki, D. R. Nygren, A. Obertacke, S. Odrowski, A. Olivas, A. Omairat, A. O’Murchadha, T. Palczewski, L. Paul, Penek, J. A. Pepper, C. Pérez de los Heros, C. Pfendner, D. Pieloth, E. Pinat, J. Posselt, P. B. Price, G. T. Przybylski, J. Pütz, M. Quinnan, L. Rädel, M. Rameez, K. Rawlins, P. Redl, I. Rees, R. Reimann, M. Relich, E. Resconi, W. Rhode, M. Richman, B. Riedel, S. Robertson, J. P. Rodrigues, M. Rongen, C. Rott, T. Ruhe, B. Ruzybayev, D. Ryckbosch, S. M. Saba, H. G. Sander, J. Sandroos, M. Santander, S. Sarkar, K. Schatto, F. Scheriau, T. Schmidt, M. Schmitz, S. Schoenen, S. Schöneberg, A. Schönwald, A. Schukraft, L. Schulte, O. Schulz, D. Seckel, Y. Sestayo, S. Seunarine, R. Shanidze, M. W.E. Smith, D. Soldin, G. M. Spiczak, C. Spiering, M. Stamatikos, T. Stanev, N. A. Stanisha, A. Stasik, T. Stezelberger, R. G. Stokstad, A. Stößl, E. A. Strahler, R. Ström, N. L. Strotjohann, G. W. Sullivan, H. Taavola, I. Taboada, A. Tamburro, A. Tepe, S. Ter-Antonyan, A. Terliuk, G. Tešić, S. Tilav, P. A. Toale, M. N. Tobin, D. Tosi, M. Tselengidou, E. Unger, M. Usner, S. Vallecorsa, N. van Eijndhoven, J. Vandenbroucke, J. van Santen, M. Vehring, M. Voge, M. Vraeghe, C. Walck, M. Wallraff, Ch Weaver, M. Wellons, C. Wendt, S. Westerhoff, B. J. Whelan, N. Whitehorn, C. Wichary, K. Wiebe, C. H. Wiebusch, D. R. Williams, H. Wissing, M. Wolf, T. R. Wood, K. Woschnagg, D. L. Xu, X. W. Xu, J. P. Yanez, G. Yodh, S. Yoshida, P. Zarzhitsky, J. Ziemann, S. Zierke, M. Zoll, K. Morik

Research output: Contribution to journal › Article › peer-review

51 Scopus citations

Abstract

We present the development and application of a generic analysis scheme for the measurement of neutrino spectra with the IceCube detector. This scheme is based on regularized unfolding, preceded by an event selection which uses a Minimum Redundancy Maximum Relevance algorithm to select the relevant variables and a random forest for the classification of events. The analysis has been developed using IceCube data from the 59-string configuration of the detector. 27,771 neutrino candidates were detected in 346 days of livetime. A rejection of 99.9999 % of the atmospheric muon background is achieved. The energy spectrum of the atmospheric neutrino flux is obtained using the TRUEE unfolding program. The unfolded spectrum of atmospheric muon neutrinos covers an energy range from 100 GeV to 1 PeV. Compared to the previous measurement using the detector in the 40-string configuration, the analysis presented here, extends the upper end of the atmospheric neutrino spectrum by more than a factor of two, reaching an energy region that has not been previously accessed by spectral measurements.

Original language	English
Article number	116
Journal	European Physical Journal C
Volume	75
Issue number	3
DOIs	https://doi.org/10.1140/epjc/s10052-015-3330-z
State	Published - 2015
Externally published	Yes

Funding

We acknowledge the support from the following agencies: U.S. National Science Foundation-Office of Polar Programs, U.S. National Science Foundation-Physics Division, University of Wisconsin Alumni Research Foundation, the Grid Laboratory Of Wisconsin (GLOW) grid infrastructure at the University of Wisconsin - Madison, the Open Science Grid (OSG) grid infrastructure; U.S. Department of Energy, and National Energy Research Scientific Computing Center, the Louisiana Optical Network Initiative (LONI) grid computing resources; Natural Sciences and Engineering Research Council of Canada, WestGrid and Compute/Calcul Canada; Swedish Research Council, Swedish Polar Research Secretariat, Swedish National Infrastructure for Computing (SNIC), and Knut and Alice Wallenberg Foundation, Sweden; German Ministry for Education and Research (BMBF), Deutsche Forschungsgemeinschaft (DFG), Helmholtz Alliance for Astroparticle Physics (HAP), Research Department of Plasmas with Complex Interactions (Bochum), Germany; Fund for Scientific Research (FNRS-FWO), FWO Odysseus programme, Flanders Institute to encourage scientific and technological research in industry (IWT), Belgian Federal Science Policy Office (Belspo); University of Oxford, United Kingdom; Marsden Fund, New Zealand; Australian Research Council; Japan Society for Promotion of Science (JSPS); the Swiss National Science Foundation (SNSF), Switzerland; National Research Foundation of Korea (NRF); Danish National Research Foundation, Denmark (DNRF).

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10.1140/epjc/s10052-015-3330-z

Cite this

Aartsen, M. G., Ackermann, M., Adams, J., Aguilar, J. A., Ahlers, M., Ahrens, M., Altmann, D., Anderson, T., Arguelles, C., Arlen, T. C., Auffenberg, J., Bai, X., Barwick, S. W., Baum, V., Beatty, J. J., Tjus, J. B., Becker, K. H., BenZvi, S., Berghaus, P., ... Morik, K. (2015). Development of a general analysis and unfolding scheme and its application to measure the energy spectrum of atmospheric neutrinos with IceCube: IceCube Collaboration. European Physical Journal C, 75(3), Article 116. https://doi.org/10.1140/epjc/s10052-015-3330-z

@article{5d169101d31545afb3a7c2fefe028728,

title = "Development of a general analysis and unfolding scheme and its application to measure the energy spectrum of atmospheric neutrinos with IceCube: IceCube Collaboration",

abstract = "We present the development and application of a generic analysis scheme for the measurement of neutrino spectra with the IceCube detector. This scheme is based on regularized unfolding, preceded by an event selection which uses a Minimum Redundancy Maximum Relevance algorithm to select the relevant variables and a random forest for the classification of events. The analysis has been developed using IceCube data from the 59-string configuration of the detector. 27,771 neutrino candidates were detected in 346 days of livetime. A rejection of 99.9999 \% of the atmospheric muon background is achieved. The energy spectrum of the atmospheric neutrino flux is obtained using the TRUEE unfolding program. The unfolded spectrum of atmospheric muon neutrinos covers an energy range from 100 GeV to 1 PeV. Compared to the previous measurement using the detector in the 40-string configuration, the analysis presented here, extends the upper end of the atmospheric neutrino spectrum by more than a factor of two, reaching an energy region that has not been previously accessed by spectral measurements.",

author = "Aartsen, \{M. G.\} and M. Ackermann and J. Adams and Aguilar, \{J. A.\} and M. Ahlers and M. Ahrens and D. Altmann and T. Anderson and C. Arguelles and Arlen, \{T. C.\} and J. Auffenberg and X. Bai and Barwick, \{S. W.\} and V. Baum and Beatty, \{J. J.\} and Tjus, \{J. Becker\} and Becker, \{K. H.\} and S. BenZvi and P. Berghaus and D. Berley and E. Bernardini and A. Bernhard and Besson, \{D. Z.\} and G. Binder and D. Bindig and M. Bissok and E. Blaufuss and J. Blumenthal and Boersma, \{D. J.\} and C. Bohm and F. Bos and D. Bose and S. B{\"o}ser and O. Botner and L. Brayeur and Bretz, \{H. P.\} and Brown, \{A. M.\} and J. Casey and M. Casier and E. Cheung and D. Chirkin and A. Christov and B. Christy and K. Clark and L. Classen and F. Clevermann and S. Coenders and Cowen, \{D. F.\} and \{Cruz Silva\}, \{A. H.\} and M. Danninger and J. Daughhetee and Davis, \{J. C.\} and M. Day and \{de Andr{\'e}\}, \{J. P.A.M.\} and \{De Clercq\}, C. and \{De Ridder\}, S. and P. Desiati and \{de Vries\}, \{K. D.\} and \{de With\}, M. and T. DeYoung and D{\'i}az-V{\'e}lez, \{J. C.\} and M. Dunkman and R. Eagan and B. Eberhardt and B. Eichmann and J. Eisch and S. Euler and Evenson, \{P. A.\} and O. Fadiran and Fazely, \{A. R.\} and A. Fedynitch and J. Feintzeig and J. Felde and T. Feusels and K. Filimonov and C. Finley and T. Fischer-Wasels and S. Flis and A. Franckowiak and K. Frantzen and T. Fuchs and Gaisser, \{T. K.\} and R. Gaior and J. Gallagher and L. Gerhardt and D. Gier and L. Gladstone and T. Gl{\"u}senkamp and A. Goldschmidt and G. Golup and Gonzalez, \{J. G.\} and Goodman, \{J. A.\} and D. G{\'o}ra and D. Grant and P. Gretskov and Groh, \{J. C.\} and A. Gro{\ss} and C. Ha and C. Haack and \{Haj Ismail\}, A. and P. Hallen and A. Hallgren and F. Halzen and K. Hanson and D. Hebecker and D. Heereman and D. Heinen and K. Helbing and R. Hellauer and D. Hellwig and S. Hickford and Hill, \{G. C.\} and Hoffman, \{K. D.\} and R. Hoffmann and A. Homeier and K. Hoshina and F. Huang and W. Huelsnitz and Hulth, \{P. O.\} and K. Hultqvist and S. Hussain and A. Ishihara and E. Jacobi and J. Jacobsen and K. Jagielski and Japaridze, \{G. S.\} and K. Jero and O. Jlelati and M. Jurkovic and B. Kaminsky and A. Kappes and T. Karg and A. Karle and M. Kauer and A. Keivani and Kelley, \{J. L.\} and A. Kheirandish and J. Kiryluk and J. Kl{\"a}s and Klein, \{S. R.\} and K{\"o}hne, \{J. H.\} and G. Kohnen and H. Kolanoski and A. Koob and L. K{\"o}pke and C. Kopper and S. Kopper and Koskinen, \{D. J.\} and M. Kowalski and A. Kriesten and K. Krings and G. Kroll and M. Kroll and J. Kunnen and N. Kurahashi and T. Kuwabara and M. Labare and Larsen, \{D. T.\} and Larson, \{M. J.\} and M. Lesiak-Bzdak and M. Leuermann and J. Leute and J. L{\"u}nemann and J. Madsen and G. Maggi and R. Maruyama and K. Mase and Matis, \{H. S.\} and R. Maunu and F. McNally and K. Meagher and M. Medici and A. Meli and T. Meures and S. Miarecki and E. Middell and E. Middlemas and N. Milke and J. Miller and L. Mohrmann and T. Montaruli and R. Morse and R. Nahnhauer and U. Naumann and H. Niederhausen and Nowicki, \{S. C.\} and Nygren, \{D. R.\} and A. Obertacke and S. Odrowski and A. Olivas and A. Omairat and A. O{\textquoteright}Murchadha and T. Palczewski and L. Paul and Penek and Pepper, \{J. A.\} and \{P{\'e}rez de los Heros\}, C. and C. Pfendner and D. Pieloth and E. Pinat and J. Posselt and Price, \{P. B.\} and Przybylski, \{G. T.\} and J. P{\"u}tz and M. Quinnan and L. R{\"a}del and M. Rameez and K. Rawlins and P. Redl and I. Rees and R. Reimann and M. Relich and E. Resconi and W. Rhode and M. Richman and B. Riedel and S. Robertson and Rodrigues, \{J. P.\} and M. Rongen and C. Rott and T. Ruhe and B. Ruzybayev and D. Ryckbosch and Saba, \{S. M.\} and Sander, \{H. G.\} and J. Sandroos and M. Santander and S. Sarkar and K. Schatto and F. Scheriau and T. Schmidt and M. Schmitz and S. Schoenen and S. Sch{\"o}neberg and A. Sch{\"o}nwald and A. Schukraft and L. Schulte and O. Schulz and D. Seckel and Y. Sestayo and S. Seunarine and R. Shanidze and Smith, \{M. W.E.\} and D. Soldin and Spiczak, \{G. M.\} and C. Spiering and M. Stamatikos and T. Stanev and Stanisha, \{N. A.\} and A. Stasik and T. Stezelberger and Stokstad, \{R. G.\} and A. St{\"o}{\ss}l and Strahler, \{E. A.\} and R. Str{\"o}m and Strotjohann, \{N. L.\} and Sullivan, \{G. W.\} and H. Taavola and I. Taboada and A. Tamburro and A. Tepe and S. Ter-Antonyan and A. Terliuk and G. Te{\v s}i{\'c} and S. Tilav and Toale, \{P. A.\} and Tobin, \{M. N.\} and D. Tosi and M. Tselengidou and E. Unger and M. Usner and S. Vallecorsa and \{van Eijndhoven\}, N. and J. Vandenbroucke and \{van Santen\}, J. and M. Vehring and M. Voge and M. Vraeghe and C. Walck and M. Wallraff and Ch Weaver and M. Wellons and C. Wendt and S. Westerhoff and Whelan, \{B. J.\} and N. Whitehorn and C. Wichary and K. Wiebe and Wiebusch, \{C. H.\} and Williams, \{D. R.\} and H. Wissing and M. Wolf and Wood, \{T. R.\} and K. Woschnagg and Xu, \{D. L.\} and Xu, \{X. W.\} and Yanez, \{J. P.\} and G. Yodh and S. Yoshida and P. Zarzhitsky and J. Ziemann and S. Zierke and M. Zoll and K. Morik",

note = "Publisher Copyright: {\textcopyright} 2015, The Author(s).",

year = "2015",

doi = "10.1140/epjc/s10052-015-3330-z",

language = "English",

volume = "75",

journal = "European Physical Journal C",

issn = "1434-6044",

publisher = "SpringerOpen",

number = "3",

}

Aartsen, MG, Ackermann, M, Adams, J, Aguilar, JA, Ahlers, M, Ahrens, M, Altmann, D, Anderson, T, Arguelles, C, Arlen, TC, Auffenberg, J, Bai, X, Barwick, SW, Baum, V, Beatty, JJ, Tjus, JB, Becker, KH, BenZvi, S, Berghaus, P, Berley, D, Bernardini, E, Bernhard, A, Besson, DZ, Binder, G, Bindig, D, Bissok, M, Blaufuss, E, Blumenthal, J, Boersma, DJ, Bohm, C, Bos, F, Bose, D, Böser, S, Botner, O, Brayeur, L, Bretz, HP, Brown, AM, Casey, J, Casier, M, Cheung, E, Chirkin, D, Christov, A, Christy, B, Clark, K, Classen, L, Clevermann, F, Coenders, S, Cowen, DF, Cruz Silva, AH, Danninger, M, Daughhetee, J, Davis, JC, Day, M, de André, JPAM, De Clercq, C, De Ridder, S, Desiati, P, de Vries, KD, de With, M, DeYoung, T, Díaz-Vélez, JC, Dunkman, M, Eagan, R, Eberhardt, B, Eichmann, B, Eisch, J, Euler, S, Evenson, PA, Fadiran, O, Fazely, AR, Fedynitch, A, Feintzeig, J, Felde, J, Feusels, T, Filimonov, K, Finley, C, Fischer-Wasels, T, Flis, S, Franckowiak, A, Frantzen, K, Fuchs, T, Gaisser, TK, Gaior, R, Gallagher, J, Gerhardt, L, Gier, D, Gladstone, L, Glüsenkamp, T, Goldschmidt, A, Golup, G, Gonzalez, JG, Goodman, JA, Góra, D, Grant, D, Gretskov, P, Groh, JC, Groß, A, Ha, C, Haack, C, Haj Ismail, A, Hallen, P, Hallgren, A, Halzen, F, Hanson, K, Hebecker, D, Heereman, D, Heinen, D, Helbing, K, Hellauer, R, Hellwig, D, Hickford, S, Hill, GC, Hoffman, KD, Hoffmann, R, Homeier, A, Hoshina, K, Huang, F, Huelsnitz, W, Hulth, PO, Hultqvist, K, Hussain, S, Ishihara, A, Jacobi, E, Jacobsen, J, Jagielski, K, Japaridze, GS, Jero, K, Jlelati, O, Jurkovic, M, Kaminsky, B, Kappes, A, Karg, T, Karle, A, Kauer, M, Keivani, A, Kelley, JL, Kheirandish, A, Kiryluk, J, Kläs, J, Klein, SR, Köhne, JH, Kohnen, G, Kolanoski, H, Koob, A, Köpke, L, Kopper, C, Kopper, S, Koskinen, DJ, Kowalski, M, Kriesten, A, Krings, K, Kroll, G, Kroll, M, Kunnen, J, Kurahashi, N, Kuwabara, T, Labare, M, Larsen, DT, Larson, MJ, Lesiak-Bzdak, M, Leuermann, M, Leute, J, Lünemann, J, Madsen, J, Maggi, G, Maruyama, R, Mase, K, Matis, HS, Maunu, R, McNally, F, Meagher, K, Medici, M, Meli, A, Meures, T, Miarecki, S, Middell, E, Middlemas, E, Milke, N, Miller, J, Mohrmann, L, Montaruli, T, Morse, R, Nahnhauer, R, Naumann, U, Niederhausen, H, Nowicki, SC, Nygren, DR, Obertacke, A, Odrowski, S, Olivas, A, Omairat, A, O’Murchadha, A, Palczewski, T, Paul, L, Penek, Pepper, JA, Pérez de los Heros, C, Pfendner, C, Pieloth, D, Pinat, E, Posselt, J, Price, PB, Przybylski, GT, Pütz, J, Quinnan, M, Rädel, L, Rameez, M, Rawlins, K, Redl, P, Rees, I, Reimann, R, Relich, M, Resconi, E, Rhode, W, Richman, M, Riedel, B, Robertson, S, Rodrigues, JP, Rongen, M, Rott, C, Ruhe, T, Ruzybayev, B, Ryckbosch, D, Saba, SM, Sander, HG, Sandroos, J, Santander, M, Sarkar, S, Schatto, K, Scheriau, F, Schmidt, T, Schmitz, M, Schoenen, S, Schöneberg, S, Schönwald, A, Schukraft, A, Schulte, L, Schulz, O, Seckel, D, Sestayo, Y, Seunarine, S, Shanidze, R, Smith, MWE, Soldin, D, Spiczak, GM, Spiering, C, Stamatikos, M, Stanev, T, Stanisha, NA, Stasik, A, Stezelberger, T, Stokstad, RG, Stößl, A, Strahler, EA, Ström, R, Strotjohann, NL, Sullivan, GW, Taavola, H, Taboada, I, Tamburro, A, Tepe, A, Ter-Antonyan, S, Terliuk, A, Tešić, G, Tilav, S, Toale, PA, Tobin, MN, Tosi, D, Tselengidou, M, Unger, E, Usner, M, Vallecorsa, S, van Eijndhoven, N, Vandenbroucke, J, van Santen, J, Vehring, M, Voge, M, Vraeghe, M, Walck, C, Wallraff, M, Weaver, C, Wellons, M, Wendt, C, Westerhoff, S, Whelan, BJ, Whitehorn, N, Wichary, C, Wiebe, K, Wiebusch, CH, Williams, DR, Wissing, H, Wolf, M, Wood, TR, Woschnagg, K, Xu, DL, Xu, XW, Yanez, JP, Yodh, G, Yoshida, S, Zarzhitsky, P, Ziemann, J, Zierke, S, Zoll, M & Morik, K 2015, 'Development of a general analysis and unfolding scheme and its application to measure the energy spectrum of atmospheric neutrinos with IceCube: IceCube Collaboration', European Physical Journal C, vol. 75, no. 3, 116. https://doi.org/10.1140/epjc/s10052-015-3330-z

TY - JOUR

T1 - Development of a general analysis and unfolding scheme and its application to measure the energy spectrum of atmospheric neutrinos with IceCube

T2 - IceCube Collaboration

AU - Aartsen, M. G.

AU - Ackermann, M.

AU - Adams, J.

AU - Aguilar, J. A.

AU - Ahlers, M.

AU - Ahrens, M.

AU - Altmann, D.

AU - Anderson, T.

AU - Arguelles, C.

AU - Arlen, T. C.

AU - Auffenberg, J.

AU - Bai, X.

AU - Barwick, S. W.

AU - Baum, V.

AU - Beatty, J. J.

AU - Tjus, J. Becker

AU - Becker, K. H.

AU - BenZvi, S.

AU - Berghaus, P.

AU - Berley, D.

AU - Bernardini, E.

AU - Bernhard, A.

AU - Besson, D. Z.

AU - Binder, G.

AU - Bindig, D.

AU - Bissok, M.

AU - Blaufuss, E.

AU - Blumenthal, J.

AU - Boersma, D. J.

AU - Bohm, C.

AU - Bos, F.

AU - Bose, D.

AU - Böser, S.

AU - Botner, O.

AU - Brayeur, L.

AU - Bretz, H. P.

AU - Brown, A. M.

AU - Casey, J.

AU - Casier, M.

AU - Cheung, E.

AU - Chirkin, D.

AU - Christov, A.

AU - Christy, B.

AU - Clark, K.

AU - Classen, L.

AU - Clevermann, F.

AU - Coenders, S.

AU - Cowen, D. F.

AU - Cruz Silva, A. H.

AU - Danninger, M.

AU - Daughhetee, J.

AU - Davis, J. C.

AU - Day, M.

AU - de André, J. P.A.M.

AU - De Clercq, C.

AU - De Ridder, S.

AU - Desiati, P.

AU - de Vries, K. D.

AU - de With, M.

AU - DeYoung, T.

AU - Díaz-Vélez, J. C.

AU - Dunkman, M.

AU - Eagan, R.

AU - Eberhardt, B.

AU - Eichmann, B.

AU - Eisch, J.

AU - Euler, S.

AU - Evenson, P. A.

AU - Fadiran, O.

AU - Fazely, A. R.

AU - Fedynitch, A.

AU - Feintzeig, J.

AU - Felde, J.

AU - Feusels, T.

AU - Filimonov, K.

AU - Finley, C.

AU - Fischer-Wasels, T.

AU - Flis, S.

AU - Franckowiak, A.

AU - Frantzen, K.

AU - Fuchs, T.

AU - Gaisser, T. K.

AU - Gaior, R.

AU - Gallagher, J.

AU - Gerhardt, L.

AU - Gier, D.

AU - Gladstone, L.

AU - Glüsenkamp, T.

AU - Goldschmidt, A.

AU - Golup, G.

AU - Gonzalez, J. G.

AU - Goodman, J. A.

AU - Góra, D.

AU - Grant, D.

AU - Gretskov, P.

AU - Groh, J. C.

AU - Groß, A.

AU - Ha, C.

AU - Haack, C.

AU - Haj Ismail, A.

AU - Hallen, P.

AU - Hallgren, A.

AU - Halzen, F.

AU - Hanson, K.

AU - Hebecker, D.

AU - Heereman, D.

AU - Heinen, D.

AU - Helbing, K.

AU - Hellauer, R.

AU - Hellwig, D.

AU - Hickford, S.

AU - Hill, G. C.

AU - Hoffman, K. D.

AU - Hoffmann, R.

AU - Homeier, A.

AU - Hoshina, K.

AU - Huang, F.

AU - Huelsnitz, W.

AU - Hulth, P. O.

AU - Hultqvist, K.

AU - Hussain, S.

AU - Ishihara, A.

AU - Jacobi, E.

AU - Jacobsen, J.

AU - Jagielski, K.

AU - Japaridze, G. S.

AU - Jero, K.

AU - Jlelati, O.

AU - Jurkovic, M.

AU - Kaminsky, B.

AU - Kappes, A.

AU - Karg, T.

AU - Karle, A.

AU - Kauer, M.

AU - Keivani, A.

AU - Kelley, J. L.

AU - Kheirandish, A.

AU - Kiryluk, J.

AU - Kläs, J.

AU - Klein, S. R.

AU - Köhne, J. H.

AU - Kohnen, G.

AU - Kolanoski, H.

AU - Koob, A.

AU - Köpke, L.

AU - Kopper, C.

AU - Kopper, S.

AU - Koskinen, D. J.

AU - Kowalski, M.

AU - Kriesten, A.

AU - Krings, K.

AU - Kroll, G.

AU - Kroll, M.

AU - Kunnen, J.

AU - Kurahashi, N.

AU - Kuwabara, T.

AU - Labare, M.

AU - Larsen, D. T.

AU - Larson, M. J.

AU - Lesiak-Bzdak, M.

AU - Leuermann, M.

AU - Leute, J.

AU - Lünemann, J.

AU - Madsen, J.

AU - Maggi, G.

AU - Maruyama, R.

AU - Mase, K.

AU - Matis, H. S.

AU - Maunu, R.

AU - McNally, F.

AU - Meagher, K.

AU - Medici, M.

AU - Meli, A.

AU - Meures, T.

AU - Miarecki, S.

AU - Middell, E.

AU - Middlemas, E.

AU - Milke, N.

AU - Miller, J.

AU - Mohrmann, L.

AU - Montaruli, T.

AU - Morse, R.

AU - Nahnhauer, R.

AU - Naumann, U.

AU - Niederhausen, H.

AU - Nowicki, S. C.

AU - Nygren, D. R.

AU - Obertacke, A.

AU - Odrowski, S.

AU - Olivas, A.

AU - Omairat, A.

AU - O’Murchadha, A.

AU - Palczewski, T.

AU - Paul, L.

AU - Penek,

AU - Pepper, J. A.

AU - Pérez de los Heros, C.

AU - Pfendner, C.

AU - Pieloth, D.

AU - Pinat, E.

AU - Posselt, J.

AU - Price, P. B.

AU - Przybylski, G. T.

AU - Pütz, J.

AU - Quinnan, M.

AU - Rädel, L.

AU - Rameez, M.

AU - Rawlins, K.

AU - Redl, P.

AU - Rees, I.

AU - Reimann, R.

AU - Relich, M.

AU - Resconi, E.

AU - Rhode, W.

AU - Richman, M.

AU - Riedel, B.

AU - Robertson, S.

AU - Rodrigues, J. P.

AU - Rongen, M.

AU - Rott, C.

AU - Ruhe, T.

AU - Ruzybayev, B.

AU - Ryckbosch, D.

AU - Saba, S. M.

AU - Sander, H. G.

AU - Sandroos, J.

AU - Santander, M.

AU - Sarkar, S.

AU - Schatto, K.

AU - Scheriau, F.

AU - Schmidt, T.

AU - Schmitz, M.

AU - Schoenen, S.

AU - Schöneberg, S.

AU - Schönwald, A.

AU - Schukraft, A.

AU - Schulte, L.

AU - Schulz, O.

AU - Seckel, D.

AU - Sestayo, Y.

AU - Seunarine, S.

AU - Shanidze, R.

AU - Smith, M. W.E.

AU - Soldin, D.

AU - Spiczak, G. M.

AU - Spiering, C.

AU - Stamatikos, M.

AU - Stanev, T.

AU - Stanisha, N. A.

AU - Stasik, A.

AU - Stezelberger, T.

AU - Stokstad, R. G.

AU - Stößl, A.

AU - Strahler, E. A.

AU - Ström, R.

AU - Strotjohann, N. L.

AU - Sullivan, G. W.

AU - Taavola, H.

AU - Taboada, I.

AU - Tamburro, A.

AU - Tepe, A.

AU - Ter-Antonyan, S.

AU - Terliuk, A.

AU - Tešić, G.

AU - Tilav, S.

AU - Toale, P. A.

AU - Tobin, M. N.

AU - Tosi, D.

AU - Tselengidou, M.

AU - Unger, E.

AU - Usner, M.

AU - Vallecorsa, S.

AU - van Eijndhoven, N.

AU - Vandenbroucke, J.

AU - van Santen, J.

AU - Vehring, M.

AU - Voge, M.

AU - Vraeghe, M.

AU - Walck, C.

AU - Wallraff, M.

AU - Weaver, Ch

AU - Wellons, M.

AU - Wendt, C.

AU - Westerhoff, S.

AU - Whelan, B. J.

AU - Whitehorn, N.

AU - Wichary, C.

AU - Wiebe, K.

AU - Wiebusch, C. H.

AU - Williams, D. R.

AU - Wissing, H.

AU - Wolf, M.

AU - Wood, T. R.

AU - Woschnagg, K.

AU - Xu, D. L.

AU - Xu, X. W.

AU - Yanez, J. P.

AU - Yodh, G.

AU - Yoshida, S.

AU - Zarzhitsky, P.

AU - Ziemann, J.

AU - Zierke, S.

AU - Zoll, M.

AU - Morik, K.

PY - 2015

Y1 - 2015

N2 - We present the development and application of a generic analysis scheme for the measurement of neutrino spectra with the IceCube detector. This scheme is based on regularized unfolding, preceded by an event selection which uses a Minimum Redundancy Maximum Relevance algorithm to select the relevant variables and a random forest for the classification of events. The analysis has been developed using IceCube data from the 59-string configuration of the detector. 27,771 neutrino candidates were detected in 346 days of livetime. A rejection of 99.9999 % of the atmospheric muon background is achieved. The energy spectrum of the atmospheric neutrino flux is obtained using the TRUEE unfolding program. The unfolded spectrum of atmospheric muon neutrinos covers an energy range from 100 GeV to 1 PeV. Compared to the previous measurement using the detector in the 40-string configuration, the analysis presented here, extends the upper end of the atmospheric neutrino spectrum by more than a factor of two, reaching an energy region that has not been previously accessed by spectral measurements.

AB - We present the development and application of a generic analysis scheme for the measurement of neutrino spectra with the IceCube detector. This scheme is based on regularized unfolding, preceded by an event selection which uses a Minimum Redundancy Maximum Relevance algorithm to select the relevant variables and a random forest for the classification of events. The analysis has been developed using IceCube data from the 59-string configuration of the detector. 27,771 neutrino candidates were detected in 346 days of livetime. A rejection of 99.9999 % of the atmospheric muon background is achieved. The energy spectrum of the atmospheric neutrino flux is obtained using the TRUEE unfolding program. The unfolded spectrum of atmospheric muon neutrinos covers an energy range from 100 GeV to 1 PeV. Compared to the previous measurement using the detector in the 40-string configuration, the analysis presented here, extends the upper end of the atmospheric neutrino spectrum by more than a factor of two, reaching an energy region that has not been previously accessed by spectral measurements.

UR - https://www.scopus.com/pages/publications/84924975571

U2 - 10.1140/epjc/s10052-015-3330-z

DO - 10.1140/epjc/s10052-015-3330-z

M3 - Article

AN - SCOPUS:84924975571

SN - 1434-6044

VL - 75

JO - European Physical Journal C

JF - European Physical Journal C

IS - 3

M1 - 116

ER -

Development of a general analysis and unfolding scheme and its application to measure the energy spectrum of atmospheric neutrinos with IceCube: IceCube Collaboration

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