Your search keyword '"De Oña Wilhelmi, E."' showing total 16 results

1. The Crab nebula variability at short time-scales with the Cherenkov telescope array.

Author

Mestre, E, de Oña Wilhelmi, E, Khangulyan, D, Zanin, R, Acero, F, and Torres, D F

Subjects

*CRAB Nebula, *SPECTRAL energy distribution, *SOLAR flares, *NEBULAE, *TELESCOPES, *THRESHOLD energy, *DATA recorders & recording

Abstract

Since 2009, several rapid and bright flares have been observed at high energies (>100 MeV) from the direction of the Crab nebula. Several hypotheses have been put forward to explain this phenomenon, but the origin is still unclear. The detection of counterparts at higher energies with the next generation of Cherenkov telescopes will be determinant to constrain the underlying emission mechanisms. We aim at studying the capability of the Cherenkov Telescope Array (CTA) to explore the physics behind the flares, by performing simulations of the Crab nebula spectral energy distribution, both in flaring and steady state, for different parameters related to the physical conditions in the nebula. In particular, we explore the data recorded by Fermi during two particular flares that occurred in 2011 and 2013. The expected GeV and TeV gamma-ray emission is derived using different radiation models. The resulting emission is convoluted with the CTA response and tested for detection, obtaining an exclusion region for the space of parameters that rule the different flare emission models. Our simulations show different scenarios that may be favourable for achieving the detection of the flares in Crab with CTA, in different regimes of energy. In particular, we find that observations with low sub-100 GeV energy threshold telescopes could provide the most model-constraining results. [ABSTRACT FROM AUTHOR]

Published

2021

2. Prospects for the characterization of the VHE emission from the Crab nebula and pulsar with the Cherenkov Telescope Array.

Author

Mestre, E, de Oña Wilhelmi, E, Zanin, R, Torres, D F, and Tibaldo, L

Subjects

*CRAB Nebula, *PULSARS, *TELESCOPES, *LIGHT curves, *ASTROPHYSICS, *GAMMA ray astronomy, *PLANETARY nebulae

Abstract

The Cherenkov Telescope Array (CTA) will be the next generation instrument for the very high energy gamma-ray astrophysics domain. With its enhanced sensitivity in comparison with the current facilities, CTA is expected to shed light on a varied population of sources. In particular, we will achieve a deeper knowledge of the Crab nebula and pulsar, which are the best characterized pulsar wind nebula and rotation powered pulsar, respectively. We aim at studying the capabilities of CTA regarding these objects through simulations, using the main tools currently in development for the CTA future data analysis: gammapy and ctools. We conclude that, even using conservative Instrument Response Functions, CTA will be able to resolve many uncertainties regarding the spectrum and morphology of the pulsar and its nebula. The large energy range covered by CTA will allow us to disentangle the nebula spectral shape among different hypotheses, corresponding to different underlying emitting mechanisms. In addition, resolving internal structures (smaller than ∼0.02° in size) in the nebula and unveiling their location, would provide crucial information about the propagation of particles in the magnetized medium. We used a theoretical asymmetric model to characterize the morphology of the nebula and we showed that if predictions of such morphology exist, for instance as a result of hydrodynamical or magneto-hydrodynamical simulations, it can be directly compared with CTA results. We also tested the capability of CTA to detect periodic radiation from the Crab pulsar obtaining a precise measurement of different light curves shapes. [ABSTRACT FROM AUTHOR]

Published

2020

3. On the potential of atmospheric Cherenkov telescope arrays for resolving TeV gamma-ray sources in the Galactic plane.

Author

Ambrogi, L., De Oña Wilhelmi, E., and Aharonian, F.

Subjects

*GAMMA rays, *GAUSSIAN processes, *LIGHT sources, *TELESCOPES, *COMPUTER simulation

Abstract

The potential of an array of imaging atmospheric Cherenkov telescopes to detect gamma-ray sources in complex regions has been investigated. The basic characteristics of the gamma-ray instrument have been parameterized using simple analytic representations. In addition to the ideal (Gaussian form) point spread function (PSF), the impact of more realistic non-Gaussian PSFs with tails has been considered. Simulations of isolated point-like and extended sources have been used as a benchmark to test and understand the response of the instrument. The capability of the instrument to resolve multiple sources has been analyzed and the corresponding instrument sensitivities calculated. The results are of particular interest for weak gamma-ray emitters located in crowded regions of the Galactic plane, where the chance of clustering of two or more gamma-ray sources within 1 deg is high. [ABSTRACT FROM AUTHOR]

Published

2016

4. Latest Results on Pulsar Wind Nebulae on the TeV Energy Regime.

Author

de Oña Wilhelmi, E.

Subjects

*PULSARS, *NEBULAE, *GAMMA ray astronomy, *TELESCOPES, *RELATIVISTIC astrophysics, *ASTRONOMICAL observatories, UNIVERSE

Abstract

The last few years have seen a revolution in very high γ-ray astronomy (VHE; E>100 GeV) driven largely by a new generation of Cherenkov telescopes. These new facilities, namely H.E.S.S. (High Energy Stereoscopic System), MAGIC (Major Atmospheric Gamma Imaging Cherenkov Telescope) and its upgrade MAGIC 2, Veritas (Very Energetic Radiation Imaging Telescope Array System) and CANGAROO (Collaboration of Australia and Nippon for a Gamma Ray Observatory in the Outback) were designed to increase the flux sensitivity in the energy regime of hundreds of GeV, expanding the observed energy range from 100 (50) GeV to multi-TeV, and fostered as a result a period of rapid growth in our understanding of the Non-Thermal Universe. As a result of this fast development the number of pulsar wind nebulae (PWNe) detected has increased from a few in the early 90's to more than two dozen of firm candidates nowadays. A review of the most relevant VHE results concerning pulsars and their relativistic winds is discussed here in the context of Cherenkov telescopes. [ABSTRACT FROM AUTHOR]

Published

2011

5. Status of the H.E.S.S. telescope.

Author

de Oña Wilhelmi, E.

Subjects

*GAMMA ray astronomy, *ASTRONOMICAL observations, *SPACE telescopes, *SUPERNOVA remnants, *PULSARS, *NEBULAE

Abstract

Over the past few years, very-high-energy gamma-ray astronomy has emerged as a truly observational discipline, with many detected sources representing different galactic and extragalactic source populations -supernova remnants, pulsar wind nebulae, giant molecular clouds, star formation regions, compact binary systems and active galactic nuclei. The H.E.S.S. array of imaging atmospheric Cherenkov telescopes has revealed a sky full of sources of very high energy γ-rays, challenging our knowledge of particle acceleration (either hadronic or leptonic) and propagation in environments with extreme conditions. We will review the latest results published and discus the most interesting cases. [ABSTRACT FROM AUTHOR]

Published

2009

6. The unidentified source HESS J1908+063/MGRO J1908+06.

Author

de Oña Wilhelmi, E., Djannati-Atai, A., and Renaud, M.

Subjects

*SURVEYS, *CHERENKOV counters, *NUCLEAR counters, *SPHERICAL astronomy, *SPECTRUM analysis

Abstract

The extended H.E.S.S. Galactic Plane Survey overlaps with some regions covered by the water Cherenkov detector Milagro sky survey. The latter experiment has reported 3 new sources and 4 hot spots, including MGRO J1908+06 above 12 TeV. The H.E.S.S. observations around 40 degrees of longitude confirm this detection. We take advantage of the superior sensitivity of H.E.S.S. above 0.2 TeV and its better energy and angular resolution to study in detail the morphology, spectrum and possible counterparts for this source. [ABSTRACT FROM AUTHOR]

Published

2008

7. Prospects for observations of pulsars and pulsar wind nebulae with CTA

Author

de Oña-Wilhelmi, E., Rudak, B., Barrio, J.A., Contreras, J.L., Gallant, Y., Hadasch, D., Hassan, T., Lopez, M., Mazin, D., Mirabal, N., Pedaletti, G., Renaud, M., de los Reyes, R., and Torres, D.F.

Subjects

*PULSARS, *CHERENKOV counters, *TELESCOPES, *SOLAR energy, *PHOTONS, *NEBULAE

Abstract

Abstract: The last few years have seen a revolution in very-high -ray astronomy (VHE; E>100GeV) driven largely by a new generation of Cherenkov telescopes (namely the H.E.S.S. telescope array, the MAGIC and MAGIC-II large telescopes and the VERITAS telescope array). The Cherenkov Telescope Array (CTA) project foresees a factor of 5 to 10 improvement in sensitivity above 0.1TeV, extending the accessible energy range to higher energies up to 100TeV, in the Galactic cut-off regime, and down to a few tens GeV, covering the VHE photon spectrum with good energy and angular resolution. As a result of the fast development of the VHE field, the number of pulsar wind nebulae (PWNe) detected has increased from one PWN in the early ’90s to more than two dozen firm candidates today. Also, the low energy threshold achieved and good sensitivity at TeV energies has resulted in the detection of pulsed emission from the Crab Pulsar (or its close environment) opening new and exiting expectations about the pulsed spectra of the high energy pulsars powering PWNe. Here we discuss the physics goals we aim to achieve with CTA on pulsar and PWNe physics evaluating the response of the instrument for different configurations. [Copyright &y& Elsevier]

Published

2013

8. NIR spectral classification of the companion in the gamma-ray binary HESS J1832−093 as an O6 V star.

Author

van Soelen, B, Bordas, P, Negueruela, I, de Oña Wilhelmi, E, Papitto, A, and Ribó, M

Subjects

*VERY large telescopes, *SUPERGIANT stars, *GAMMA ray astronomy

Abstract

HESS J1832−093 is a member of the rare class of gamma-ray binaries, as recently confirmed by the detection of orbitally modulated X-ray and gamma-ray emission with a period of ∼86 d. The spectral type of the massive companion star has been difficult to retrieve as there is no optical counterpart, but the system is coincident with a near-infrared source. Previous results have shown that the infrared counterpart is consistent with an O or B-type star, but a clear classification is still lacking. We observed the counterpart twice, in 2019 and 2021, with the X-Shooter spectrograph operating on the Very Large Telescope (VLT). The obtained spectra classify the counterpart as an O6 V-type star. We estimate a distance to the source of 6.7 ± 0.5 kpc, although this estimate can be severely affected by the high extinction towards the source. This new O6 V classification for the companion star in HESS J1832−093 provides further support to an apparent grouping around a given spectral type for all discovered gamma-ray binaries that contain an O-type star. This may be due to the interplay between the initial mass function and the wind momentum–luminosity relation. [ABSTRACT FROM AUTHOR]

Published

2024

9. Very-high-energy Gamma-ray Observations Of The Type Ia Supernova SN 2014J With The MAGIC Telescopes.

Author

Fernández-Barral, A., Fruck, C., Blanch, O., and de Oña Wilhelmi, E.

Subjects

*ASTRONOMICAL observations, *TYPE I supernovae, *GAMMA ray astronomy, *TELESCOPES, *EXPLOSIONS

Abstract

We present the observations with the MAGIC telescopes of SN 2014J, which correspond to the first results in the very-high-energy (VHE; E > 100 GeV) gamma-ray regime of a Type Ia Supernova (SN). The source was observed 6 days after the explosion for a total of ~ 6 hours. No significant excess was found and hence, upper limits (ULs) at a 95% confidence level (CL) were computed. We constrain the energy fraction emitted into VHE gamma rays during the first days and provide prospects for gamma-ray emission in the near future. [ABSTRACT FROM AUTHOR]

Published

2017

10. MAGIC VHE Gamma-Ray Observations Of Binary Systems.

Author

Bednarek, W., Blanch, O., Cortina, J., de Oña Wilhelmi, E., Hadasch, D., López-Coto, R., López-Oramas, A., Munar-Adrover, P., Paredes, J. M., Pérez-Torres, M. A., Ribó, M., Sitarek, J., Torres, D. F., and Zanin, R.

Subjects

*GAMMA ray astronomy, *ASTRONOMICAL observations, *X-ray binaries, *PHOTONS, *PARTICLE acceleration, *COMPTON scattering

Abstract

There are several types of Galactic sources that can potentially accelerate charged particles up to GeV and TeV energies. These accelerated particles can produce Very High Energy (VHE, E >100 GeV) γ-ray emission through different processes like for example inverse Compton scattering of ambient photon fields by accelerated electrons. We present here the results of our observations of the source class of γ-ray binaries and the subclass of binary systems known as novae with the MAGIC telescopes. The focus lies on the five sources: nova V339 Del, AE Aquarii, SS 433, MWC656 and LS I +61°303. The binary system LS I +61°303 was observed in a long-term monitoring campaign for 8 years. We show the newest results on our search for superorbital variability also in context with contemporaneous optical observations. MWC656 is a unique detected high-mass X-ray binary system, since it is up to now the only one known composed of a Be star and a black hole. Furthermore, we present the observations of the only super-critical accretion system known in our galaxy: SS 433. Finally, results of our multiwavelength observation campaign regarding the cataclysmic variable AE Aquarii and the results of the follow-up observations of the nova V339 Del will be discussed in these proceedings. [ABSTRACT FROM AUTHOR]

Published

2017

11. Observations of one young and three middle-aged γ-ray pulsarswith the Gran Telescopio Canarias.

Author

Mignani, R P, Testa, V, Rea, N, Marelli, M, Salvetti, D, Torres, D F, and De Oña Wilhelmi, E

Subjects

*ASTRONOMICAL observations, *X-rays, *PULSARS, *INTERSTELLAR medium, *TELESCOPES

Abstract

We used the 10.4 m Gran Telescopio Canarias to search for the optical counterparts to four isolated γ-ray pulsars, all detected in the X-rays by either XMM-Newton or Chandra but not yet in the optical. Three of them are middle-aged pulsars – PSR J1846+0919 (0.36 Myr), PSR J2055+2539 (1.2 Myr), PSR J2043+2740 (1.2 Myr) – and one, PSR J1907+0602, is a young pulsar (19.5 kyr). For both PSR J1907+0602 and PSR J2055+2539 we found one object close to the pulsar position. However, in both cases such an object cannot be a viable candidate counterpart to the pulsar. For PSR J1907+0602, because it would imply an anomalously red spectrum for the pulsar and for PSR J2055+2539 because the pulsar would be unrealistically bright (r′ = 20.34 ± 0.04) for the assumed distance and interstellar extinction. For PSR J1846+0919, we found no object sufficiently close to the expected position to claim a possible association, whereas for PSR J2043+2740 we confirm our previous findings that the object nearest to the pulsar position is an unrelated field star. We used our brightness limits (g′ ≈ 27), the first obtained with a large-aperture telescope for both PSR J1846+0919 and PSR J2055+2539, to constrain the optical emission properties of these pulsars and investigate the presence of spectral turnovers at low energies in their multiwavelength spectra. [ABSTRACT FROM AUTHOR]

Published

2018

12. Multiband study of RX J0838-2827 and XMM J083850.4-282759: a new asynchronous magnetic cataclysmic variable and a candidate transitional millisecond pulsar.

Author

Rea, N., Coti Zelati, F., Esposito, P., D'Avanzo, P., de Martino, D., Israel, G. L., Torres, D. F., Campana, S., Belloni, T. M., Papitto, A., Masetti, N., Carrasco, L., Possenti, A., Wieringa, M., De Oña Wilhelmi, E., Li, J., Bozzo, E., Ferrigno, C., Linares, M., and Tauris, T. M.

Subjects

*CATACLYSMIC variable stars, *PULSARS, *ACCRETION (Astrophysics), *X-ray emission spectroscopy, *WHITE dwarf stars

Abstract

In a search for the counterpart to the Fermi-LAT source 3FGL J0838.8-2829, we performed a multiwavelength campaign: in the X-ray band with Swift and XMM–Newton; in the infrared and optical with OAGH, ESO-NTT and IAC80; and in the radio with ATCA observations. We also used archival hard X-ray data obtained by INTEGRAL. We report on three X-ray sources consistent with the position of the Fermi-LAT source. We confirm the identification of the brightest object, RX J0838-2827, as a magnetic cataclysmic variable that we recognize as an asynchronous system (not associated with the Fermi-LAT source). RX J0838-2827 is extremely variable in the X-ray and optical bands, and timing analysis reveals the presence of several periodicities modulating its X-ray and optical emission. The most evident modulations are interpreted as being caused by the binary system orbital period of ∼1.64 h and the white dwarf spin period of ∼1.47 h. A strong flux modulation at ∼15 h is observed at all energy bands, consistent with the beat frequency between spin and orbital periods. Optical spectra show prominent Hβ, He I and He II emission lines that are Doppler-modulated at the orbital period and at the beat period. Therefore, RX J0838-2827 accretes through a disc-less configuration and could be either a strongly asynchronous polar or a rare example of a pre-polar system on its way to reaching synchronism. Regarding the other two X-ray sources, XMM J083850.4-282759 showed a variable X-ray emission, with a powerful flare lasting for ∼600 s, similar to what is observed in transitional millisecond pulsars during the subluminous disc state: this observation possibly means that this source can be associated with the Fermi-LAT source. [ABSTRACT FROM AUTHOR]

Published

2017

13. CTA and cosmic-ray diffusion in molecular clouds.

Author

Pedaletti, G., Torres, D. F., Gabici, S., de Oña Wilhelmi, E., Mazin, D., and Stamatescu, V.

Subjects

*COSMIC rays, *DIFFUSION, *MOLECULAR clouds, *CHERENKOV radiation, *ASTRONOMICAL observations, *PARAMETER estimation, *CONSTRAINTS (Physics)

Abstract

Molecular clouds act as primary targets for cosmic-ray interactions and are expected to shine in gamma-rays as a by-product of these interactions. Indeed several detected gamma-ray sources both in HE and VHE gamma-rays (HE: 100 MeV < E < 100 GeV; VHE: E > 100 GeV) have been directly or indirectly associated with molecular clouds. Information on the local diffusion coefficient and the local cosmic-ray population can be deduced from the observed gamma-ray signals. In this work we concentrate on the capability of the forthcoming Cherenkov Telescope Array Observatory (CTA) to provide such measurements. We investigate the expected emission from clouds hosting an accelerator, exploring the parameter space for different modes of acceleration, age of the source, cloud density profile, and cosmic ray diffusion coefficient. We present some of the most interesting cases for CTA regarding this science topic. The simulated gamma-ray fluxes depend strongly on the input parameters. In some cases, from CTA data it will be possible to constrain both the properties of the accelerator and the propagation mode of cosmic rays in the cloud. [ABSTRACT FROM AUTHOR]

Published

2012

14. The Full Spectrum Galactic Terrarium: MHz to TeV Observations of Various Critters.

Author

Roberts, Mallory S. E., Brogan, C., Ransom, S., Lyutikov, M., de Oña Wilhelmi, E., Djannati-Atai, A., Terrier, R., Dougherty, S. M., Grundstrom, E. D., Hessels, J. W. T., Johnston, S., McSwain, M. V., Ray, P. S., Wood, K. S., Pooley, G. G., and Weinstein, A.

Subjects

*WAVELENGTHS, *LENGTH measurement, *GALACTIC X-ray sources, *PULSARS, *RADIATION sources, *NEBULAE

Abstract

Multi-wavelength studies at radio, infrared, optical, X-ray, and TeV wavelengths have discovered probable counterparts to many Galactic sources of GeV emission detected by EGRET. These include pulsar wind nebulae, high mass X-ray binaries, and mixed morphology supernova remnants. Here we provide an overview of the observational properties of Galactic sources which emit across 19 orders of magnitude in energy. We also present new observations of several sources. [ABSTRACT FROM AUTHOR]

Published

2008

15. Is there room for highly magnetized pulsar wind nebulae among those non-detected at TeV?

Author

Martin, J., Torres, D. F., Cillis, A., and de Oña Wilhelmi, E.

Subjects

*PULSARS, *MAGNETIZATION, *NEBULAE, *MAGELLANIC clouds, *ENERGY density, *COSMIC background radiation

Abstract

We make a time-dependent characterization of pulsar wind nebulae (PWNe) surrounding some of the highest spin-down pulsars that have not yet been detected at TeV. Our aim is assessing their possible level of magnetization. We analyse the nebulae driven by J2022+3842 in G76.9+1.0, J0540-6919 in N158A (the Crab twin), J1400−6325 in G310.6−1.6, and J1124−5916 in G292.0+0.18, none of which have been found at TeV energies. For comparison, we refer to published models of G54.1+0.3, the Crab nebula, and develop a model for N157B in the Large Magellanic Cloud (LMC). We conclude that further observations of N158A could lead to its detection at VHE. According to our model, a far-infrared energy density of 5 eV cm−3 could already lead to a detection in H.E.S.S. (assuming no other IC target field) within 50 h of exposure, and just the cosmic microwave background inverse Compton contribution would produce VHE photons at the CTA sensitivity. We also propose models for G76.9+1.0, G310.6−1.6 and G292.0+1.8 which suggest their TeV detection in a moderate exposure for the latter two with the current generation of Cherenkov telescopes. We analyse the possibility that these PWNe are highly magnetized, where the low number of particles explains the residual detection in X-rays and their lack of detection at TeV energies. [ABSTRACT FROM PUBLISHER]

Published

2014

16. Gamma-ray signatures of cosmic ray acceleration, propagation, and confinement in the era of CTA

Author

Acero, F., Bamba, A., Casanova, S., de Cea, E., de Oña Wilhelmi, E., Gabici, S., Gallant, Y., Hadasch, D., Marcowith, A., Pedaletti, G., Reimer, O., Renaud, M., Torres, D.F., and Volpe, F.

Subjects

*GALACTIC cosmic rays, *GAMMA ray astronomy, *ACCELERATION (Mechanics), *MECHANICAL shock, *SUPERNOVA remnants, *INTERSTELLAR medium

Abstract

Abstract: Galactic cosmic rays are commonly believed to be accelerated at supernova remnants via diffusive shock acceleration. Despite the popularity of this idea, a conclusive proof for its validity is still missing. Gamma-ray astronomy provides us with a powerful tool to tackle this problem, because gamma rays are produced during cosmic ray interactions with the ambient gas. The detection of gamma rays from several supernova remnants is encouraging, but still does not constitute a proof of the scenario, the main problem being the difficulty in disentangling the hadronic and leptonic contributions to the emission. Once released by their sources, cosmic rays diffuse in the interstellar medium, and finally escape from the Galaxy. The diffuse gamma-ray emission from the Galactic disk, as well as the gamma-ray emission detected from a few galaxies is largely due to the interactions of cosmic rays in the interstellar medium. On much larger scales, cosmic rays are also expected to permeate the intracluster medium, since they can be confined and accumulated within clusters of galaxies for cosmological times. Thus, the detection of gamma rays from clusters of galaxies, or even upper limits on their emission, will allow us to constrain the cosmic ray output of the sources they contain, such as normal galaxies, AGNs, and cosmological shocks. In this paper, we describe the impact that the Cherenkov Telescope Array, a future ground-based facility for very-high energy gamma-ray astronomy, is expected to have in this field of research. [Copyright &y& Elsevier]

Published

2013