Literature DB >> 26935696

A large light-mass component of cosmic rays at 10(17)-10(17.5) electronvolts from radio observations.

S Buitink1,2, A Corstanje2, H Falcke2,3,4,5, J R Hörandel2,4, T Huege6, A Nelles2,7, J P Rachen2, L Rossetto2, P Schellart2, O Scholten8,9, S ter Veen3, S Thoudam2, T N G Trinh8, J Anderson10, A Asgekar3,11, I M Avruch12,13, M E Bell14, M J Bentum3,15, G Bernardi16,17, P Best18, A Bonafede19, F Breitling20, J W Broderick21, W N Brouw3,13, M Brüggen19, H R Butcher22, D Carbone23, B Ciardi24, J E Conway25, F de Gasperin19, E de Geus3,26, A Deller3, R-J Dettmar27, G van Diepen3, S Duscha3, J Eislöffel28, D Engels29, J E Enriquez3, R A Fallows3, R Fender30, C Ferrari31, W Frieswijk3, M A Garrett3,32, J M Grießmeier33,34, A W Gunst3, M P van Haarlem3, T E Hassall21, G Heald3,13, J W T Hessels3,23, M Hoeft28, A Horneffer5, M Iacobelli3, H Intema32,35, E Juette27, A Karastergiou30, V I Kondratiev3,36, M Kramer5,37, M Kuniyoshi38, G Kuper3, J van Leeuwen3,23, G M Loose3, P Maat3, G Mann20, S Markoff23, R McFadden3, D McKay-Bukowski39,40, J P McKean3,13, M Mevius3,13, D D Mulcahy21, H Munk3, M J Norden3, E Orru3, H Paas41, M Pandey-Pommier42, V N Pandey3, M Pietka30, R Pizzo3, A G Polatidis3, W Reich5, H J A Röttgering32, A M M Scaife21, D J Schwarz43, M Serylak30, J Sluman3, O Smirnov17,44, B W Stappers37, M Steinmetz20, A Stewart30, J Swinbank23,45, M Tagger33, Y Tang3, C Tasse44,46, M C Toribio3,32, R Vermeulen3, C Vocks20, C Vogt3, R J van Weeren16, R A M J Wijers23, S J Wijnholds3, M W Wise3,23, O Wucknitz5, S Yatawatta3, P Zarka47, J A Zensus5.   

Abstract

Cosmic rays are the highest-energy particles found in nature. Measurements of the mass composition of cosmic rays with energies of 10(17)-10(18) electronvolts are essential to understanding whether they have galactic or extragalactic sources. It has also been proposed that the astrophysical neutrino signal comes from accelerators capable of producing cosmic rays of these energies. Cosmic rays initiate air showers--cascades of secondary particles in the atmosphere-and their masses can be inferred from measurements of the atmospheric depth of the shower maximum (Xmax; the depth of the air shower when it contains the most particles) or of the composition of shower particles reaching the ground. Current measurements have either high uncertainty, or a low duty cycle and a high energy threshold. Radio detection of cosmic rays is a rapidly developing technique for determining Xmax (refs 10, 11) with a duty cycle of, in principle, nearly 100 per cent. The radiation is generated by the separation of relativistic electrons and positrons in the geomagnetic field and a negative charge excess in the shower front. Here we report radio measurements of Xmax with a mean uncertainty of 16 grams per square centimetre for air showers initiated by cosmic rays with energies of 10(17)-10(17.5) electronvolts. This high resolution in Xmax enables us to determine the mass spectrum of the cosmic rays: we find a mixed composition, with a light-mass fraction (protons and helium nuclei) of about 80 per cent. Unless, contrary to current expectations, the extragalactic component of cosmic rays contributes substantially to the total flux below 10(17.5) electronvolts, our measurements indicate the existence of an additional galactic component, to account for the light composition that we measured in the 10(17)-10(17.5) electronvolt range.

Entities:  

Year:  2016        PMID: 26935696     DOI: 10.1038/nature16976

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  7 in total

1.  Electromagnetic pulses from high-energy showers: Implications for neutrino detection.

Authors: 
Journal:  Phys Rev D Part Fields       Date:  1992-01-01

2.  General description of electromagnetic radiation processes based on instantaneous charge acceleration in "endpoints".

Authors:  Clancy W James; Heino Falcke; Tim Huege; Marianne Ludwig
Journal:  Phys Rev E Stat Nonlin Soft Matter Phys       Date:  2011-11-04

3.  Role of galactic sources and magnetic fields in forming the observed energy-dependent composition of ultrahigh-energy cosmic rays.

Authors:  Antoine Calvez; Alexander Kusenko; Shigehiro Nagataki
Journal:  Phys Rev Lett       Date:  2010-08-24       Impact factor: 9.161

4.  Probing Atmospheric Electric Fields in Thunderstorms through Radio Emission from Cosmic-Ray-Induced Air Showers.

Authors:  P Schellart; T N G Trinh; S Buitink; A Corstanje; J E Enriquez; H Falcke; J R Hörandel; A Nelles; J P Rachen; L Rossetto; O Scholten; S Ter Veen; S Thoudam; U Ebert; C Koehn; C Rutjes; A Alexov; J M Anderson; I M Avruch; M J Bentum; G Bernardi; P Best; A Bonafede; F Breitling; J W Broderick; M Brüggen; H R Butcher; B Ciardi; E de Geus; M de Vos; S Duscha; J Eislöffel; R A Fallows; W Frieswijk; M A Garrett; J Grießmeier; A W Gunst; G Heald; J W T Hessels; M Hoeft; H A Holties; E Juette; V I Kondratiev; M Kuniyoshi; G Kuper; G Mann; R McFadden; D McKay-Bukowski; J P McKean; M Mevius; J Moldon; M J Norden; E Orru; H Paas; M Pandey-Pommier; R Pizzo; A G Polatidis; W Reich; H Röttgering; A M M Scaife; D J Schwarz; M Serylak; O Smirnov; M Steinmetz; J Swinbank; M Tagger; C Tasse; M C Toribio; R J van Weeren; R Vermeulen; C Vocks; M W Wise; O Wucknitz; P Zarka
Journal:  Phys Rev Lett       Date:  2015-04-24       Impact factor: 9.161

5.  Detection and imaging of atmospheric radio flashes from cosmic ray air showers.

Authors:  H Falcke; W D Apel; A F Badea; L Bähren; K Bekk; A Bercuci; M Bertaina; P L Biermann; J Blümer; H Bozdog; I M Brancus; S Buitink; M Brüggemann; P Buchholz; H Butcher; A Chiavassa; K Daumiller; A G de Bruyn; C M de Vos; F Di Pierro; P Doll; R Engel; H Gemmeke; P L Ghia; R Glasstetter; C Grupen; A Haungs; D Heck; J R Hörandel; A Horneffer; T Huege; K-H Kampert; G W Kant; U Klein; Y Kolotaev; Y Koopman; O Krömer; J Kuijpers; S Lafebre; G Maier; H J Mathes; H J Mayer; J Milke; B Mitrica; C Morello; G Navarra; S Nehls; A Nigl; R Obenland; J Oehlschläger; S Ostapchenko; S Over; H J Pepping; M Petcu; J Petrovic; S Plewnia; H Rebel; A Risse; M Roth; H Schieler; G Schoonderbeek; O Sima; M Stümpert; G Toma; G C Trinchero; H Ulrich; S Valchierotti; J van Buren; W van Cappellen; W Walkowiak; A Weindl; S Wijnholds; J Wochele; J Zabierowski; J A Zensus; D Zimmermann
Journal:  Nature       Date:  2005-05-19       Impact factor: 49.962

6.  Evidence for high-energy extraterrestrial neutrinos at the IceCube detector.

Authors:  M G Aartsen; R Abbasi; Y Abdou; M Ackermann; J Adams; J A Aguilar; M Ahlers; D Altmann; J Auffenberg; X Bai; M Baker; S W Barwick; V Baum; R Bay; J J Beatty; S Bechet; J Becker Tjus; K-H Becker; M L Benabderrahmane; S BenZvi; P Berghaus; D Berley; E Bernardini; A Bernhard; D Bertrand; D Z Besson; G Binder; D Bindig; M Bissok; E Blaufuss; J Blumenthal; D J Boersma; S Bohaichuk; C Bohm; D Bose; S Böser; O Botner; L Brayeur; H-P Bretz; A M Brown; R Bruijn; J Brunner; M Carson; J Casey; M Casier; D Chirkin; A Christov; B Christy; K Clark; F Clevermann; S Coenders; S Cohen; D F Cowen; A H Cruz Silva; M Danninger; J Daughhetee; J C Davis; M Day; 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; R W Ellsworth; S Euler; P A Evenson; O Fadiran; A R Fazely; A Fedynitch; J Feintzeig; T Feusels; K Filimonov; C Finley; T Fischer-Wasels; S Flis; A Franckowiak; K Frantzen; T Fuchs; T K Gaisser; J Gallagher; L Gerhardt; L Gladstone; T Glüsenkamp; A Goldschmidt; G Golup; J G Gonzalez; J A Goodman; D Góra; D T Grandmont; D Grant; A Groß; C Ha; A Haj Ismail; P Hallen; A Hallgren; F Halzen; K Hanson; D Heereman; D Heinen; K Helbing; R Hellauer; S Hickford; G C Hill; K D Hoffman; R Hoffmann; A Homeier; K Hoshina; W Huelsnitz; P O Hulth; K Hultqvist; S Hussain; A Ishihara; E Jacobi; J Jacobsen; K Jagielski; G S Japaridze; K Jero; O Jlelati; B Kaminsky; A Kappes; T Karg; A Karle; J L Kelley; J Kiryluk; J Kläs; S R Klein; J-H Köhne; G Kohnen; H Kolanoski; L Köpke; C Kopper; S Kopper; D J Koskinen; M Kowalski; M Krasberg; K Krings; G Kroll; J Kunnen; N Kurahashi; T Kuwabara; M Labare; H Landsman; M J Larson; M Lesiak-Bzdak; M Leuermann; J Leute; J Lünemann; J Madsen; G Maggi; R Maruyama; K Mase; H S Matis; F McNally; K Meagher; M Merck; T Meures; S Miarecki; E Middell; 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 O'Murchadha; L Paul; J A Pepper; C Pérez de los Heros; C Pfendner; D Pieloth; E Pinat; J Posselt; P B Price; G T Przybylski; L Rädel; M Rameez; K Rawlins; P Redl; R Reimann; E Resconi; W Rhode; M Ribordy; M Richman; B Riedel; J P Rodrigues; C Rott; T Ruhe; B Ruzybayev; D Ryckbosch; S M Saba; T Salameh; H-G Sander; 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; C Sheremata; M W E Smith; D Soldin; G M Spiczak; C Spiering; M Stamatikos; T Stanev; A Stasik; T Stezelberger; R G Stokstad; A Stößl; E A Strahler; R Ström; G W Sullivan; H Taavola; I Taboada; A Tamburro; A Tepe; S Ter-Antonyan; G Tešić; S Tilav; P A Toale; S Toscano; E Unger; M Usner; N van Eijndhoven; A Van Overloop; J van Santen; M Vehring; M Voge; M Vraeghe; C Walck; T Waldenmaier; M Wallraff; Ch Weaver; M Wellons; C Wendt; S Westerhoff; N Whitehorn; 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
Journal:  Science       Date:  2013-11-22       Impact factor: 47.728

7.  Accelerator Measurements of Magnetically Induced Radio Emission from Particle Cascades with Applications to Cosmic-Ray Air Showers.

Authors:  K Belov; K Mulrey; A Romero-Wolf; S A Wissel; A Zilles; K Bechtol; K Borch; P Chen; J Clem; P W Gorham; C Hast; T Huege; R Hyneman; K Jobe; K Kuwatani; J Lam; T C Liu; J Nam; C Naudet; R J Nichol; B F Rauch; B Rotter; D Saltzberg; H Schoorlemmer; D Seckel; B Strutt; A G Vieregg; C Williams
Journal:  Phys Rev Lett       Date:  2016-04-07       Impact factor: 9.161
  7 in total
  3 in total

1.  Astronomy: Radio burst caught red-handed.

Authors:  Heino Falcke
Journal:  Nature       Date:  2017-01-04       Impact factor: 49.962

2.  Corrigendum: A large light-mass component of cosmic rays at 1017-1017.5 electronvolts from radio observations.

Authors:  S Buitink; A Corstanje; H Falcke; J R Hörandel; T Huege; A Nelles; J P Rachen; L Rossetto; P Schellart; O Scholten; S Ter Veen; S Thoudam; T N G Trinh; J Anderson; A Asgekar; I M Avruch; M E Bell; M J Bentum; G Bernardi; P Best; A Bonafede; F Breitling; J W Broderick; W N Brouw; M Brüggen; H R Butcher; D Carbone; B Ciardi; J E Conway; F de Gasperin; E de Geus; A Deller; R-J Dettmar; G van Diepen; S Duscha; J Eislöffel; D Engels; J E Enriquez; R A Fallows; R Fender; C Ferrari; W Frieswijk; M A Garrett; J M Grießmeier; A W Gunst; M P van Haarlem; T E Hassall; G Heald; J W T Hessels; M Hoeft; A Horneffer; M Iacobelli; H Intema; E Juette; A Karastergiou; V I Kondratiev; M Kramer; M Kuniyoshi; G Kuper; J van Leeuwen; G M Loose; P Maat; G Mann; S Markoff; R McFadden; D McKay-Bukowski; J P McKean; M Mevius; D D Mulcahy; H Munk; M J Norden; E Orru; H Paas; M Pandey-Pommier; V N Pandey; M Pietka; R Pizzo; A G Polatidis; W Reich; H J A Röttgering; A M M Scaife; D J Schwarz; M Serylak; J Sluman; O Smirnov; B W Stappers; M Steinmetz; A Stewart; J Swinbank; M Tagger; Y Tang; C Tasse; M C Toribio; R Vermeulen; C Vocks; C Vogt; R J van Weeren; R A M J Wijers; S J Wijnholds; M W Wise; O Wucknitz; S Yatawatta; P Zarka; J A Zensus
Journal:  Nature       Date:  2016-07-20       Impact factor: 49.962

3.  Space science: Cosmic rays beyond the knees.

Authors:  Andrew M Taylor
Journal:  Nature       Date:  2016-03-03       Impact factor: 49.962
  3 in total

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