Constraining High-energy Neutrino Emission from Supernovae with IceCube

被引:12
|
作者
Abbasi, R. [1 ]
Ackermann, M. [2 ]
Adams, J. [3 ]
Agarwalla, S. K. [4 ,5 ]
Aguilar, J. A. [6 ]
Ahlers, M. [7 ]
Alameddine, J. M. [8 ]
Amin, N. M. [9 ,10 ]
Andeen, K. [11 ,36 ]
Anton, G. [12 ]
Argueelles, C. [13 ,14 ]
Ashida, Y. [4 ,5 ]
Athanasiadou, S. [2 ]
Axani, S. N. [9 ,10 ]
Bai, X. [15 ]
Balagopal, A., V [4 ,5 ]
Baricevic, M. [4 ,5 ]
Barwick, S. W. [16 ]
Basu, V. [4 ,5 ]
Bay, R. [17 ]
Beatty, J. J. [18 ,19 ,20 ]
Becker, K. -H. [21 ]
Tjus, J. Becker [22 ,72 ]
Beise, J. [23 ]
Bellenghi, C. [24 ]
BenZvi, S. [25 ]
Berley, D. [26 ]
Bernardini, E. [27 ]
Besson, D. Z. [28 ]
Binder, G. [17 ,29 ]
Bindig, D. [21 ]
Blaufuss, E. [26 ]
Blot, S. [2 ]
Bontempo, F. [30 ]
Book, J. Y. [13 ,14 ]
Meneguolo, C. Boscolo [27 ]
Boeser, S. [31 ]
Botner, O. [23 ]
Boettcher, J. [32 ]
Bourbeau, E. [7 ]
Braun, J. [4 ,5 ]
Brinson, B. [33 ,34 ]
Brostean-Kaiser, J. [2 ]
Burley, R. T. [35 ]
Busse, R. S. [36 ]
Butterfield, D. [4 ,5 ]
Campana, M. A. [37 ]
Carloni, K. [13 ,14 ]
Carnie-Bronca, E. G. [35 ]
Chattopadhyay, S. [4 ,5 ]
机构
[1] Loyola Univ Chicago, Dept Phys, Chicago, IL 60660 USA
[2] Deutsch Elektronen Synchrotron DESY, Platanenallee 6, D-15738 Zeuthen, Germany
[3] Univ Canterbury, Dept Phys & Astron, Private Bag 4800, Christchurch, New Zealand
[4] Univ Wisconsin, Dept Phys, Madison, WI 53706 USA
[5] Univ Wisconsin, Wisconsin IceCube Particle Astrophys Ctr, Madison, WI 53706 USA
[6] Univ Libre Bruxelles, Fac Sci, CP230, B-1050 Brussels, Belgium
[7] Univ Copenhagen, Niels Bohr Inst, DK-2100 Copenhagen, Denmark
[8] TU Dortmund Univ, Dept Phys, D-44221 Dortmund, Germany
[9] Univ Delaware, Bartol Res Inst, Newark, DE 19716 USA
[10] Univ Delaware, Dept Phys & Astron, Newark, DE 19716 USA
[11] Marquette Univ, Dept Phys, Milwaukee, WI 53201 USA
[12] Friedrich Alexander Univ Erlangen Nurnberg, Erlangen Ctr Astroparticle Phys, D-91058 Erlangen, Germany
[13] Harvard Univ, Dept Phys, Cambridge, MA 02138 USA
[14] Harvard Univ, Lab Particle Phys & Cosmol, Cambridge, MA 02138 USA
[15] South Dakota Sch Mines & Technol, Dept Phys, Rapid City, SD 57701 USA
[16] Univ Calif Irvine, Dept Phys & Astron, Irvine, CA 92697 USA
[17] Univ Calif Berkeley, Dept Phys, Berkeley, CA 94720 USA
[18] Ohio State Univ, Dept Astron, 174 W 18Th Ave, Columbus, OH 43210 USA
[19] Ohio State Univ, Dept Phys, Columbus, OH 43210 USA
[20] Ohio State Univ, Ctr Cosmol & Astroparticle Phys, Columbus, OH 43210 USA
[21] Univ Wuppertal, Dept Phys, D-42119 Wuppertal, Germany
[22] Ruhr Univ Bochum, Fak Phys & Astron, D-44780 Bochum, Germany
[23] Uppsala Univ, Dept Phys & Astron, Box 516, SE-75120 Uppsala, Sweden
[24] Tech Univ Munich, Phys Dept, D-85748 Garching, Germany
[25] Univ Rochester, Dept Phys & Astron, Rochester, NY 14627 USA
[26] Univ Maryland, Dept Phys, College Pk, MD 20742 USA
[27] Univ Padua, Dipartimento Fis & Astron Galileo Galilei, I-35122 Padua, PD, Italy
[28] Univ Kansas, Dept Phys & Astron, Lawrence, KS 66045 USA
[29] Lawrence Berkeley Natl Lab, Berkeley, CA 94720 USA
[30] Karlsruhe Inst Technol, Inst Astroparticle Phys, D-76021 Karlsruhe, Germany
[31] Johannes Gutenberg Univ Mainz, Inst Phys, Staudinger Weg 7, D-55099 Mainz, Germany
[32] Rhein Westfal TH Aachen, Phys Inst 3, D-52056 Aachen, Germany
[33] Georgia Inst Technol, Sch Phys, Atlanta, GA 30332 USA
[34] Georgia Inst Technol, Ctr Relativist Astrophys, Atlanta, GA 30332 USA
[35] Univ Adelaide, Dept Phys, Adelaide, SA 5005, Australia
[36] Westfalische Wilhelms Univ Munster, Inst Kernphys, D-48149 Munster, Germany
[37] Drexel Univ, Dept Phys, 3141 Chestnut St, Philadelphia, PA 19104 USA
[38] SUNY Stony Brook, Dept Phys & Astron, Stony Brook, NY 11794 USA
[39] Sungkyunkwan Univ, Dept Phys, Suwon 16419, South Korea
[40] MIT, Dept Phys, Cambridge, MA 02139 USA
[41] VUB, Dienst ELEM, B-1050 Brussels, Belgium
[42] Columbia Univ, Columbia Astrophys & Nevis Labs, New York, NY 10027 USA
[43] Penn State Univ, Dept Astron & Astrophys, 525 Davey Lab, University Pk, PA 16802 USA
[44] Penn State Univ, Dept Phys, 104 Davey Lab, University Pk, PA 16802 USA
[45] Univ Alabama, Dept Phys & Astron, Tuscaloosa, AL 35487 USA
[46] Stockholm Univ, Oskar Klein Ctr, SE-10691 Stockholm, Sweden
[47] Stockholm Univ, Dept Phys, SE-10691 Stockholm, Sweden
[48] Catholic Univ Louvain, Ctr Cosmol Particle Phys & Phenomenol CP3, Louvain La Neuve, Belgium
[49] Michigan State Univ, Dept Phys & Astron, E Lansing, MI 48824 USA
[50] Karlsruhe Inst Technol, Inst Expt Particle Phys, D-76021 Karlsruhe, Germany
来源
ASTROPHYSICAL JOURNAL LETTERS | 2023年 / 949卷 / 01期
基金
瑞士国家科学基金会; 瑞典研究理事会; 新加坡国家研究基金会; 美国国家科学基金会; 加拿大创新基金会; 加拿大自然科学与工程研究理事会; 澳大利亚研究理事会;
关键词
MASTER OT J120451.50+265946.6; CORE-COLLAPSE SUPERNOVAE; GAMMA-RAY BURSTS; IIP SUPERNOVA; SN; PROGENITOR; SEARCH; EVOLUTION; OUTBURST; BLAZARS;
D O I
10.3847/2041-8213/acd2c9
中图分类号
P1 [天文学];
学科分类号
0704 ;
摘要
Core-collapse supernovae are a promising potential high-energy neutrino source class. We test for correlation between seven years of IceCube neutrino data and a catalog containing more than 1000 core-collapse supernovae of types IIn and IIP and a sample of stripped-envelope supernovae. We search both for neutrino emission from individual supernovae as well as for combined emission from the whole supernova sample, through a stacking analysis. No significant spatial or temporal correlation of neutrinos with the cataloged supernovae was found. All scenarios were tested against the background expectation and together yield an overall p-value of 93%; therefore, they show consistency with the background only. The derived upper limits on the total energy emitted in neutrinos are 1.7 x 10(48) erg for stripped-envelope supernovae, 2.8 x 10(48) erg for type IIP, and 1.3 x 10(49) erg for type IIn SNe, the latter disfavoring models with optimistic assumptions for neutrino production in interacting supernovae. We conclude that stripped-envelope supernovae and supernovae of type IIn do not contribute more than 14.6% and 33.9%, respectively, to the diffuse neutrino flux in the energy range of about [ 10(3)-10(5)] GeV, assuming that the neutrino energy spectrum follows a power-law with an index of -2.5. Under the same assumption, we can only constrain the contribution of type IIP SNe to no more than 59.9%. Thus, core-collapse supernovae of types IIn and stripped-envelope supernovae can both be ruled out as the dominant source of the diffuse neutrino flux under the given assumptions.
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页数:14
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