J. L. Christiansen
California Polytechnic State University
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Featured researches published by J. L. Christiansen.
Science | 2011
E. Aliu; T. Arlen; T. Aune; M. Beilicke; W. Benbow; A. Bouvier; S. M. Bradbury; J. H. Buckley; V. Bugaev; K. L. Byrum; A. Cannon; A. Cesarini; J. L. Christiansen; L. Ciupik; E. Collins-Hughes; M. P. Connolly; W. Cui; R. Dickherber; C. Duke; M. Errando; A. Falcone; J. P. Finley; G. Finnegan; L. Fortson; A. Furniss; N. Galante; D. Gall; K. Gibbs; G. H. Gillanders; S. Godambe
This detection constrains the mechanism and emission region of gamma-ray radiation in the pulsar’s magnetosphere. We report the detection of pulsed gamma rays from the Crab pulsar at energies above 100 giga–electron volts (GeV) with the Very Energetic Radiation Imaging Telescope Array System (VERITAS) array of atmospheric Cherenkov telescopes. The detection cannot be explained on the basis of current pulsar models. The photon spectrum of pulsed emission between 100 mega–electron volts and 400 GeV is described by a broken power law that is statistically preferred over a power law with an exponential cutoff. It is unlikely that the observation can be explained by invoking curvature radiation as the origin of the observed gamma rays above 100 GeV. Our findings require that these gamma rays be produced more than 10 stellar radii from the neutron star.
Physical Review D | 2012
E. Aliu; S. Archambault; T. Arlen; T. Aune; M. Beilicke; W. Benbow; A. Bouvier; S. M. Bradbury; J. H. Buckley; V. Bugaev; K. L. Byrum; A. Cannon; A. Cesarini; J. L. Christiansen; L. Ciupik; E. Collins-Hughes; M. P. Connolly; W. Cui; G. Decerprit; R. Dickherber; J. Dumm; M. Errando; A. Falcone; Q. Feng; Francesc Ferrer; J. P. Finley; G. Finnegan; L. Fortson; A. Furniss; N. Galante
The VERITAS array of Cherenkov telescopes has carried out a deep observational program on the nearby dwarf spheroidal galaxy Segue 1. We report on the results of nearly 48 hours of good quality selected data, taken between January 2010 and May 2011. No significant γ-ray emission is detected at the nominal position of Segue 1, and upper limits on the integrated flux are derived. According to recent studies, Segue 1 is the most dark matter-dominated dwarf spheroidal galaxy currently known. We derive stringent bounds on various annihilating and decaying dark matter particle models. The upper limits on the velocity-weighted annihilation cross-section are ⟨σv⟩95% CL≲10−23 cm3 s−1, improving our limits from previous observations of dwarf spheroidal galaxies by at least a factor of 2 for dark matter particle masses mχ≳300 GeV. The lower limits on the decay lifetime are at the level of τ95% CL≳1024 s. Finally, we address the interpretation of the cosmic ray lepton anomalies measured by ATIC and PAMELA in terms of dark matter annihilation, and show that the VERITAS observations of Segue 1 disfavor such a scenario.
The Astrophysical Journal | 2010
V. A. Acciari; T. Arlen; T. Aune; M. Beilicke; W. Benbow; D. Boltuch; S. M. Bradbury; J. H. Buckley; V. Bugaev; K. L. Byrum; A. Cannon; A. Cesarini; J. L. Christiansen; L. Ciupik; W. Cui; R. Dickherber; C. Duke; J. P. Finley; G. Finnegan; A. Furniss; N. Galante; S. Godambe; J. Grube; R. Guenette; G. Gyuk; D. Hanna; J. Holder; C. M. Hui; T. B. Humensky; A. Imran
Indirect dark matter searches with ground-based gamma-ray observatories provide an alternative for identifying the particle nature of dark matter that is complementary to that of direct search or accelerator production experiments. We present the results of observations of the dwarf spheroidal galaxies Draco, Ursa Minor, Bo¨ 1, and Willman 1 conducted by the Very Energetic Radiation Imaging Telescope Array System (VERITAS). These galaxies are nearby dark matter dominated objects located at a typical distance of several tens of kiloparsecs for which there are good measurements of the dark matter density profile from stellar velocity measurements. Since the conventional astrophysical background of very high energy gamma rays from these objects appears to be negligible, they are good targets to search for the secondary gamma-ray photons produced by interacting or decaying dark matter particles. No significant gamma-ray flux above 200 GeV was detected from these four dwarf galaxies for a typical exposure of ∼20 hr. The 95% confidence upper limits on the integral gamma-ray flux are in the range (0.4–2.2) × 10 −12 photons cm −2 s −1 . We interpret this limiting flux in the context of pair annihilation of weakly interacting massive particles (WIMPs) and derive constraints on the thermally averaged product of the total self-annihilation cross section and the relative velocity of the WIMPs (� σv � 10 −23 cm 3 s −1 for mχ 300 GeVc −2 ). This limit is obtained under conservative assumptions regarding the dark matter distribution in dwarf galaxies and is approximately 3 orders of magnitude above the generic theoretical prediction for WIMPs in the minimal supersymmetric standard model framework. However, significant uncertainty exists in the dark matter distribution as well as the neutralino cross sections which under favorable assumptions could further lower this limit.
The Astrophysical Journal | 2011
V. A. Acciari; E. Aliu; T. Arlen; T. Aune; M. Beilicke; W. Benbow; S. M. Bradbury; J. H. Buckley; V. Bugaev; K. L. Byrum; A. Cannon; A. Cesarini; J. L. Christiansen; L. Ciupik; E. Collins-Hughes; M. P. Connolly; W. Cui; C. Duke; M. Errando; A. Falcone; J. P. Finley; G. Finnegan; L. Fortson; A. Furniss; N. Galante; D. Gall; S. Godambe; S. Griffin; J. Grube; R. Guenette
We present the results of 16 Swift-triggered Gamma-ray burst (GRB) follow-up observations taken with the Very Energetic Radiation Imaging Telescope Array System (VERITAS) telescope array from 2007 January to 2009 June. The median energy threshold and response time of these observations were 260 GeV and 320 s, respectively. Observations had an average duration of 90 minutes. Each burst is analyzed independently in two modes: over the whole duration of the observations and again over a shorter timescale determined by the maximum VERITAS sensitivity to a burst with a t –1.5 time profile. This temporal model is characteristic of GRB afterglows with high-energy, long-lived emission that have been detected by the Large Area Telescope on board the Fermi satellite. No significant very high energy (VHE) gamma-ray emission was detected and upper limits above the VERITAS threshold energy are calculated. The VERITAS upper limits are corrected for gamma-ray extinction by the extragalactic background light and interpreted in the context of the keV emission detected by Swift. For some bursts the VHE emission must have less power than the keV emission, placing constraints on inverse Compton models of VHE emission.
The Astrophysical Journal | 2016
A. U. Abeysekara; S. Archambault; A. Archer; W. Benbow; R. Bird; M. Buchovecky; J. H. Buckley; K. L. Byrum; J. V. Cardenzana; M. Cerruti; X. Chen; J. L. Christiansen; L. Ciupik; W. Cui; H. J. Dickinson; J. D. Eisch; M. Errando; A. Falcone; D. J. Fegan; Q. Feng; J. P. Finley; H. Fleischhack; P. Fortin; L. Fortson; A. Furniss; G. H. Gillanders; S. Griffin; J. Grube; G. Gyuk; M. Hütten
This research is supported by grants from the U.S. Department of Energy Office of Science, the U.S. National Science Foundation, and the Smithsonian Institution, and by NSERC in Canada.
Monthly Notices of the Royal Astronomical Society | 2016
S. Archambault; A. Archer; A. Barnacka; B. Behera; M. Beilicke; W. Benbow; K. Berger; R. Bird; M. Böttcher; J. H. Buckley; V. Bugaev; J. V. Cardenzana; M. Cerruti; X. Chen; J. L. Christiansen; L. Ciupik; E. Collins-Hughes; M. P. Connolly; W. Cui; H. J. Dickinson; J. Dumm; J. D. Eisch; M. Errando; A. Falcone; S. Federici; Q. Feng; J. P. Finley; H. Fleischhack; L. Fortson; A. Furniss
The BL Lacertae object 1ES 1440+122 was observed in the energy range from 85 GeV to 30 TeV by the VERITAS array of imaging atmospheric Cherenkov telescopes. The observations, taken between 2008 May and 2010 June and totalling 53 hours, resulted in the discovery of
Monthly Notices of the Royal Astronomical Society | 2016
A. U. Abeysekara; S. Archambault; A. Archer; W. Benbow; R. Bird; J. Biteau; M. Buchovecky; James Henry Buckley; V. Bugaev; K. L. Byrum; J. V. Cardenzana; M. Cerruti; X. Chen; J. L. Christiansen; L. Ciupik; M. P. Connolly; W. Cui; H. J. Dickinson; J. Dumm; J. D. Eisch; M. Errando; A. Falcone; Q. Feng; J. P. Finley; H. Fleischhack; A. Flinders; P. Fortin; L. Fortson; A. Furniss; G. H. Gillanders
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The Astrophysical Journal | 2018
A. U. Abeysekara; A. Archer; W. Benbow; R. Bird; A. Brill; R. Brose; J. H. Buckley; J. L. Christiansen; A. J. Chromey; M. K. Daniel; A. Falcone; Q. Feng; J. P. Finley; L. Fortson; A. Furniss; G. H. Gillanders; O. Gueta; D. Hanna; O. Hervet; J. Holder; G. Hughes; T. B. Humensky; C. A. Johnson; P. Kaaret; P. Kar; N. Kelley-Hoskins; M. Kertzman; D. Kieda; M. Krause; F. Krennrich
-ray emission from the blazar, which has a redshift
Monthly Notices of the Royal Astronomical Society | 2017
C. Allen; M. Santander; M. Krause; K. Meagher; C. B. Rulten; W. Cui; D. Kieda; J. Holder; M. Kertzman; M. Hütten; K. Ragan; E. Bourbeau; J. Grube; A. N. Otte; N. Håkansson; A. C. Rovero; V. Bugaev; J. V. Tucci; S. Kumar; R. Mukherjee; H. Fleischhack; A. Pichel; T. B. Humensky; G. H. Gillanders; A. J. Weinstein; N. Park; S. McArthur; J. Tyler; J. L. Christiansen; M. Buchovecky
z
Physical Review D | 2017
S. Archambault; A. Archer; W. Benbow; R. Bird; E. Bourbeau; T. Brantseg; M. Buchovecky; J. H. Buckley; V. Bugaev; K. L. Byrum; M. Cerruti; J. L. Christiansen; M. P. Connolly; W. Cui; M. K. Daniel; Q. Feng; J. P. Finley; H. Fleischhack; L. Fortson; A. Furniss; Alex Geringer-Sameth; S. Griffin; J. Grube; M. Hütten; N. Håkansson; D. Hanna; O. Hervet; J. Holder; G. Hughes; B. Hummensky
=0.163. 1ES 1440+122 is detected at a statistical significance of 5.5 standard deviations above the background with an integral flux of (2.8
