R. Diehl
Max Planck Society
Network
Latest external collaboration on country level. Dive into details by clicking on the dots.
Publication
Featured researches published by R. Diehl.
The Astrophysical Journal | 2009
Charles A. Meegan; Giselher G. Lichti; P. N. Bhat; E. Bissaldi; M. S. Briggs; V. Connaughton; R. Diehl; G. J. Fishman; J. Greiner; Andrew S. Hoover; Alexander Jonathan Van Der Horst; Andreas von Kienlin; R. Marc Kippen; C. Kouveliotou; Sheila McBreen; W. S. Paciesas; Robert B. Preece; H. Steinle; M. Wallace; Robert B. Wilson; C. Wilson-Hodge
The Gamma-Ray Burst Monitor (GBM) will significantly augment the science return from the Fermi Observatory in the study of gamma-ray bursts (GRBs). The primary objective of GBM is to extend the energy range over which bursts are observed downward from the energy range of the Large Area Telescope (LAT) on Fermi into the hard X-ray range where extensive previous data sets exist. A secondary objective is to compute burst locations onboard to allow re-orienting the spacecraft so that the LAT can observe delayed emission from bright bursts. GBM uses an array of 12 sodium iodide scintillators and two bismuth germanate scintillators to detect gamma rays from ~8 keV to ~40 MeV over the full unocculted sky. The onboard trigger threshold is ~0.7 photons cm–2 s–1 (50-300 keV, 1 s peak). GBM generates onboard triggers for ~250 GRBs per year.
Astronomy and Astrophysics | 2003
G. Vedrenne; J.-P. Roques; V. Schönfelder; P. Mandrou; Giselher G. Lichti; A. von Kienlin; Bertrand Cordier; S. Schanne; J. Knödlseder; G. Skinner; P. Jean; F. Sanchez; Patrizia A. Caraveo; B. J. Teegarden; P. von Ballmoos; L. Bouchet; P. Paul; J. L. Matteson; S. E. Boggs; Cornelia B. Wunderer; P. Leleux; Georg Weidenspointner; Ph. Durouchoux; R. Diehl; Andrew W. Strong; Michel Casse; M.-A. Clair; Y. André
SPI is a high spectral resolution gamma-ray telescope on board the ESA mission INTEGRAL (International Gamma Ray Astrophysics Laboratory). It consists of an array of 19 closely packed germanium detectors surrounded by an active anticoincidence shield of BGO. The imaging capabilities of the instrument are obtained with a tungsten coded aperture mask located 1.7 m from the Ge array. The fully coded field-of-view is 16degrees, the partially coded field of view amounts to 31degrees, and the angular resolution is 2.5degrees. The energy range extends from 20 keV to 8 MeV with a typical energy resolution of 2.5 keV at 1.3 MeV. Here we present the general concept of the instrument followed by a brief description of each of the main subsystems. INTEGRAL was successfully launched in October 2002 and SPI is functioning extremely well.
Astrophysical Journal Supplement Series | 1993
V. Schoenfelder; H. Aarts; K. Bennett; de H. Boer; J. Clear; W. Collmar; Alanna Connors; A. Deerenberg; R. Diehl; von A. Dordrecht; den J.W. Herder; W. Hermsen; Marc Kippen; L. Kuiper; Giselher G. Lichti; J. A. Lockwood; John R. Macri; Mark L. McConnell; Derek W. Morris; Rudolf Paul Much; J. Ryan; G. Simpson; M. Snelling; G. Stacy; H. Steinle; A. W. Strong; B. N. Swanenburg; B. G. Taylor; de C.P. Vries; C. Winkler
The imaging Compton telescope COMPTEL is one of the four instruments on board the Compton Gamma-Ray Observatory (GRO), which was launched on 1991 April 5 by the space shuttle Atlantis into an Earth orbit of 450 km altitude. COMPTEL is exploring the 1-30 MeV energy range with an angular resolution (1σ) between 1° and 2° within a large field of view of about 1 steradian. Its energy resolution (8.8% FWHM at 1.27 MeV) makes it a powerful gamma-ray line spectrometer. Its effective area (for on-axis incidence) varies between 10 and 50 cm 2 depending on energy and event selections. Within a 14 day observation period COMPTEL is able to detect sources which are about 20 times weaker than the Crab. The measurement principle of COMPTEL also allows the measurements of solar neutrons
Nature | 2006
R. Diehl; Hubert Halloin; Karsten Kretschmer; Giselher G. Lichti; V. Schönfelder; Andrew W. Strong; Andreas von Kienlin; Wei Wang; P. Jean; Jurgen Knodlseder; Jean-Pierre Roques; Georg Weidenspointner; Stephane Schanne; Dieter H. Hartmann; Christoph Winkler; Cornelia B. Wunderer
Gamma-rays from radioactive 26Al (half-life ∼7.2 × 105 years) provide a ‘snapshot’ view of continuing nucleosynthesis in the Galaxy. The Galaxy is relatively transparent to such γ-rays, and emission has been found concentrated along its plane. This led to the conclusion that massive stars throughout the Galaxy dominate the production of 26Al. On the other hand, meteoritic data show evidence for locally produced 26Al, perhaps from spallation reactions in the protosolar disk. Furthermore, prominent γ-ray emission from the Cygnus region suggests that a substantial fraction of Galactic 26Al could originate in localized star-forming regions. Here we report high spectral resolution measurements of 26Al emission at 1808.65 keV, which demonstrate that the 26Al source regions corotate with the Galaxy, supporting its Galaxy-wide origin. We determine a present-day equilibrium mass of 2.8 (± 0.8) solar masses of 26Al. We use this to determine that the frequency of core collapse (that is, type Ib/c and type II) supernovae is 1.9 (± 1.1) events per century.
Astronomy and Astrophysics | 2003
P. Jean; J. Knödlseder; V. Lonjou; M. Allain; J.-P. Roques; G. Skinner; B. J. Teegarden; G. Vedrenne; P. von Ballmoos; B. Cordier; Patrizia A. Caraveo; R. Diehl; Ph. Durouchoux; P. Mandrou; J. L. Matteson; Neil Gehrels; V. Schönfelder; Andrew W. Strong; P. Ubertini; Georg Weidenspointner; C. Winkler
We report the first measurements of the 511 keV line emission from the Galactic Centre (GC) region performed with the spectrometer SPI on the space observatory INTEGRAL (International Gamma-Ray Astrophysics Laboratory). Taking into account the range of spatial distribution models which are consistent with the data, we derive a flux of 9:9 +4:7 2:1 10 4 ph cm 2 s 1 and an intrinsic line width of 2:95 +0:45 0:51 keV (FWHM). The results are consistent with other high-spectroscopy measurements, though the width is found to be at the upper bound of previously reported values.We report the first measurements of the 511 keV line emission from the Galactic Centre (GC) region performed with the spectrometer SPI on the space observatory INTEGRAL (International Gamma-Ray Astrophysics Laboratory). Taking into account the range of spatial distribution models which are consistent with the data, we derive a flux of
The Astrophysical Journal | 2011
S. Guiriec; V. Connaughton; M. S. Briggs; Michael Burgess; F. Ryde; F. Daigne; P. Meszaros; Adam Goldstein; J. E. McEnery; N. Omodei; P. N. Bhat; E. Bissaldi; Ascension Camero-Arranz; Vandiver Chaplin; R. Diehl; G. J. Fishman; S. Foley; M. H. Gibby; J. Greiner; David Gruber; Andreas von Kienlin; Marc Kippen; C. Kouveliotou; Sheila McBreen; Charles A. Meegan; W. S. Paciesas; Robert D. Preece; Dave Tierney; Alexander Jonathan Van Der Horst; C. Wilson-Hodge
9.9^{+4.7}_{-2.1} \times 10^{-4}
Astronomy and Astrophysics | 2001
L. Kuiper; V. Schönfelder; G. Cusumano; Mark L. McConnell; R. Diehl; K. Bennett; Andrew W. Strong; W. Hermsen
ph cm
Astronomy and Astrophysics | 2004
A. W. Strong; I. V. Moskalenko; O. Reimer; S. W. Digel; R. Diehl
^{-2}
Nature | 2008
Georg Weidenspointner; Gerry Skinner; P. Jean; J. Knödlseder; Peter von Ballmoos; G. F. Bignami; R. Diehl; Andrew W. Strong; Bertrand Cordier; S. Schanne; Christoph Winkler
s
Nature | 2015
J. Greiner; Paolo A. Mazzali; D. Alexander Kann; Thomas Krühler; E. Pian; Simon Prentice; E Felipe Olivares; A. Rossi; Sylvio Klose; Stefan Taubenberger; F. Knust; Paulo M. J. Afonso; Chris Ashall; J. Bolmer; C. Delvaux; R. Diehl; Jonathan Elliott; Robert Filgas; Johan Peter Uldall Fynbo; John F. Graham; Ana Nicuesa Guelbenzu; Shiho Kobayashi; G. Leloudas; Sandra Savaglio; Patricia Schady; S. Schmidl; T. Schweyer; V. Sudilovsky; M. Tanga; Adria C. Updike
^{-1}
Collaboration
Dive into the R. Diehl's collaboration.
