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Featured researches published by A. Furniss.


The Astrophysical Journal | 2016

A SEARCH for BRIEF OPTICAL FLASHES ASSOCIATED with the SETI TARGET KIC 8462852

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.


The Astrophysical Journal | 2017

Gamma-Ray Observations of Tycho’s Supernova Remnant with VERITAS and Fermi

S. Archambault; A. Archer; W. Benbow; R. Bird; E. Bourbeau; M. Buchovecky; J. H. Buckley; V. Bugaev; M. Cerruti; M. P. Connolly; W. Cui; Vikram V. Dwarkadas; M. Errando; A. Falcone; Q. Feng; J. P. Finley; H. Fleischhack; L. Fortson; A. Furniss; S. Griffin; M. Hütten; D. Hanna; J. Holder; C. A. Johnson; P. Kaaret; P. Kar; N. Kelley-Hoskins; M. Kertzman; D. Kieda; M. Krause

High-energy gamma-ray emission from supernova remnants (SNRs) has provided a unique perspective for studies of Galactic cosmic-ray acceleration. Tycho’s SNR is a particularly good target because it is a young, type Ia SNR that is well-studied over a wide range of energies and located in a relatively clean environment. Since the detection of gamma-ray emission from Tycho’s SNR by VERITAS and Fermi -LAT, there have been several theoretical models proposed to explain its broadband emission and high-energy morphology. We report on an update to the gamma-ray measurements of Tycho’s SNR with 147 hours of VERITAS and 84 months of Fermi -LAT observations, which represents about a factor of two increase in exposure over previously published data. About half of the VERITAS data benefited from a camera upgrade, which has made it possible to extend the TeV measurements toward lower energies. The TeV spectral index measured by VERITAS is consistent with previous results, but the expanded energy range softens a straight power-law fit. At energies higher than 400 GeV, the power-law index is 2.92±0.42stat±0.20sys. It is also softer than the spectral index in the GeV energy range, 2.14±0.09stat ±0.02sys, measured by this study using Fermi–LAT data. The centroid position of the gamma-ray emission is coincident with the center of the remnant, as well as with the centroid measurement of Fermi–LAT above 1 GeV. The results are consistent with an SNR shell origin of the emission, as many models assume. The updated spectrum points to a lower maximum particle energy than has been suggested previously. Subject headings: supernova remnant: general – supernova remnant: individual(Tycho’s SNR) – gamma


The Astronomical Journal | 2016

Upper limits from five years of blazar observations with the VERITAS Cherenkov telescopes

S. Archambault; A. Archer; W. Benbow; R. Bird; J. Biteau; M. Buchovecky; James Henry Buckley; V. Bugaev; K. L. Byrum; M. Cerruti; X. Chen; L. Ciupik; M. P. Connolly; W. Cui; J. D. Eisch; M. Errando; A. Falcone; Q. Feng; J. P. Finley; H. Fleischhack; P. Fortin; L. Fortson; A. Furniss; G. H. Gillanders; S. Griffin; J. Grube; G. Gyuk; M. Hütten; N. Håkansson; D. Hanna

Between the beginning of its full-scale scientific operations in 2007 and 2012, the VERITAS Cherenkov telescope array observed more than 130 blazars; of these, 26 were detected as very-high-energy (VHE; E>100 GeV) -ray sources. In this work, we present the analysis results of a sample of 114 undetected objects. The observations constitute a total live-time of 570 hours. The sample includes several unidentified Fermi-Large Area Telescope (LAT) sources (located at high Galactic latitude) as well as all the sources from the second Fermi-LAT catalog which are contained within the field of view of the VERITAS observations. We have also performed optical spectroscopy measurements in order to estimate the redshift of some of these blazars that do not have a spectroscopic distance estimate. We present new optical spectra from the Kast instrument on the Shane telescope at the Lick observatory for 18 blazars included in this work, which allowed for the successful measurement or constraint on the redshift of four of them. For each of the blazars included in our sample we provide the flux upper limit in the VERITAS energy band. We also study the properties of the significance distributions and we present the result of a stacked analysis of the data-set, which shows a 4 excess.


The Astrophysical Journal | 2016

TeV Gamma-ray Observations of The Galactic Center Ridge By VERITAS

A. Archer; W. Benbow; R. Bird; M. Buchovecky; James Henry Buckley; V. Bugaev; K. L. Byrum; J. V. Cardenzana; M. Cerruti; X. Chen; L. Ciupik; E. Collins-Hughes; M. P. Connolly; J. D. Eisch; A. Falcone; Q. Feng; J. P. Finley; H. Fleischhack; A. Flinders; L. Fortson; A. Furniss; G. H. Gillanders; S. Griffin; J. Grube; G. Gyuk; N. Håkansson; D. Hanna; J. Holder; T. B. Humensky; M. Hütten

The Galactic Center Ridge has been observed extensively in the past by both GeV and TeV gamma-ray instruments revealing a wealth of structure, including a diffuse component as well as the point sources G0.9+0.1 (a composite supernova remnant) and Sgr A* (believed to be associated with the supermassive black hole located at the center of our Galaxy). Previous very high energy (VHE) gamma-ray observations with the H.E.S.S. experiment have also detected an extended TeV gamma-ray component along the Galactic plane in the >300 GeV gamma-ray regime. Here we report on observations of the Galactic Center Ridge from 2010-2014 by the VERITAS telescope array in the >2 TeV energy range. From these observations we 1.) provide improved measurements of the differential energy spectrum for Sgr A* in the >2 TeV gamma-ray regime, 2.) provide a detection in the >2 TeV gamma-ray emission from the composite SNR G0.9+0.1 and an improved determination of its multi-TeV gamma-ray energy spectrum, 3.) report on the detection of VER J1746-289, a localized enhancement of >2 TeV gamma-ray emission along the Galactic plane.


The Astrophysical Journal | 2016

First Nustar Observations of the Bl Lac-Type Blazar Pks 2155-304: Constraints on the Jet Content and Distribution of Radiating Particles

G. M. Madejski; Krzysztof Nalewajko; Kristin K. Madsen; J. Chiang; M. Baloković; D. Paneque; A. Furniss; M. Hayashida; Claudia M. Urry; Marek Sikora; M. Ajello; R. D. Blandford; Fiona A. Harrison; D. A. Sanchez; B. Giebels; D. Stern; D. M. Alexander; Didier Barret; S. E. Boggs; Finn Erland Christensen; William W. Craig; K. Forster; Paolo Giommi; Brian W. Grefenstette; C. Hailey; A. Hornstrup; Takao Kitaguchi; Jason E. Koglin; Peter H. Mao; Hiromasa Miyasaka

We report the first hard X-ray observations with NuSTAR of the BL Lac type blazar PKS 2155-304, augmented with soft X-ray data from XMM-Newton and gamma-ray data from the Fermi Large Area Telescope, obtained in April 2013 when the source was in a very low flux state. A joint NuSTAR and XMM spectrum, covering the energy range 0.5 - 60 keV, is best described by a model consisting of a log-parabola component with curvature beta = 0.3(+0.2,-0.1) and a (local) photon index 3.04 +/- 0.15 at photon energy of 2 keV, and a hard power-law tail with photon index 2.2 +/- 0.4. The hard X-ray tail can be smoothly joined to the quasi-simultaneous gamma-ray spectrum by a synchrotron self-Compton component produced by an electron distribution with index p = 2.2. Assuming that the power-law electron distribution extends down to the minimum electron Lorentz factor gamma_min = 1 and that there is one proton per electron, an unrealistically high total jet power L_p of roughly 10^47 erg/s is inferred. This can be reduced by two orders of magnitude either by considering a significant presence of electron-positron pairs with lepton-to-proton ratio of at least 30, or by introducing an additional, low-energy break in the electron energy distribution at the electron Lorentz factor gamma_br1 of roughly 100. In either case, the jet composition is expected to be strongly matter-dominated.


The Astrophysical Journal | 2017

Search for Magnetically Broadened Cascade Emission from Blazars with VERITAS

S. Archambault; A. Archer; W. Benbow; M. Buchovecky; V. Bugaev; M. Cerruti; M. P. Connolly; W. Cui; A. Falcone; M. Fernández Alonso; J. P. Finley; H. Fleischhack; L. Fortson; A. Furniss; S. Griffin; M. Hütten; O. Hervet; J. Holder; T. B. Humensky; C. A. Johnson; P. Kaaret; P. Kar; D. Kieda; M. Krause; F. Krennrich; M. J. Lang; T. T. Y. Lin; G. Maier; S. McArthur; P. Moriarty

We present a search for magnetically broadened gamma-ray emission around active galactic nuclei (AGN), using VERITAS observations of seven hard-spectrum blazars. A cascade process occurs when multi-TeV gamma rays from AGN interact with extragalactic background light (EBL) photons to produce electron-positron pairs, which then interact with cosmic microwave background (CMB) photons via inverse-Compton scattering to produce gamma rays. Due to the deflection of the electron-positron pairs, a non-zero intergalactic magnetic field (IGMF) would potentially produce detectable effects on the angular distribution of the cascade emission. In particular, an angular broadening compared to the unscattered emission could occur. Through non-detection of angularly broadened emission from 1ES 1218+304, the source with the largest predicted cascade fraction, we exclude a range of IGMF strengths around


The Astrophysical Journal | 2016

Exceptionally Bright TEV Flares from the Binary LS I +61° 303

S. Archambault; A. Archer; T. Aune; A. Barnacka; W. Benbow; R. Bird; M. Buchovecky; J. H. Buckley; V. Bugaev; K. L. Byrum; J. V. Cardenzana; M. Cerruti; X. Chen; L. Ciupik; E. Collins-Hughes; M. P. Connolly; W. Cui; H. J. Dickinson; J. Dumm; J. D. Eisch; A. Falcone; Q. Feng; J. P. Finley; H. Fleischhack; A. Flinders; P. Fortin; L. Fortson; A. Furniss; G. H. Gillanders; S. Griffin

10^{-14}


The Astrophysical Journal | 2017

A Luminous and Isolated Gamma-Ray Flare from the Blazar B2 1215+30

A. U. Abeysekara; S. Archambault; A. Archer; W. Benbow; R. Bird; M. Buchovecky; J. H. Buckley; V. Bugaev; K. L. Byrum; M. Cerruti; X. Chen; L. Ciupik; W. Cui; H. J. Dickinson; J. D. Eisch; M. Errando; A. Falcone; Q. Feng; J. P. Finley; H. Fleischhack; L. Fortson; A. Furniss; G. H. Gillanders; S. Griffin; J. Grube; M. Hütten; N. Håkansson; D. Hanna; J. Holder; T. B. Humensky

G at the 95% confidence level. The extent of the exclusion range varies with the assumptions made about the intrinsic spectrum of 1ES 1218+304 and the EBL model used in the simulation of the cascade process. All of the sources are used to set limits on the flux due to extended emission.


The Astrophysical Journal | 2016

A SEARCH FOR VERY HIGH ENERGY GAMMA RAYS FROM THE MISSING LINK BINARY PULSAR J1023+0038 WITH VERITAS

E. Aliu; S. Archambault; A. Archer; W. Benbow; R. Bird; J. Biteau; M. Buchovecky; J. H. Buckley; V. Bugaev; K. L. Byrum; J. V. Cardenzana; M. Cerruti; X. Chen; L. Ciupik; M. P. Connolly; W. Cui; H. J. Dickinson; J. D. Eisch; A. Falcone; Q. Feng; J. P. Finley; H. Fleischhack; A. Flinders; P. Fortin; L. Fortson; A. Furniss; G. H. Gillanders; S. Griffin; J. Grube; G. Gyuk

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

VERITAS and multiwavelength observations of the BL Lacertae object 1ES 1741+196

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

B2 1215+30 is a BL-Lac-type blazar that was first detected at TeV energies by the MAGIC atmospheric Cherenkov telescopes and subsequently confirmed by the Very Energetic Radiation Imaging Telescope ...

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L. Fortson

University of Minnesota

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A. Archer

Washington University in St. Louis

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M. Buchovecky

University of California

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A. Falcone

Pennsylvania State University

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V. Bugaev

Washington University in St. Louis

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