GAMMA-RAY COMPACT BINARIES* ASTROPHYSICAL SCENARIOS Félix Mirabel * Neutron stars & Black holes in stellar binary systems that radiate in gamma-rays. (Will.

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Presentation transcript:

GAMMA-RAY COMPACT BINARIES* ASTROPHYSICAL SCENARIOS Félix Mirabel * Neutron stars & Black holes in stellar binary systems that radiate in gamma-rays. (Will not refer to other types gamma-ray stellar binaries, e.g. Eta Carina)

COMPACT GAMMA-RAY BINARIES IN 2006 The only known were PSR B , LSI & LS 5039  -rays produced by inverse Compton scattering: relativistic electrons collide with stellar and/or synchrotron photons and boost their energies to HE & VHE ranges. In PSR B the electrons are powered by the rotational energy of the pulsar. In microquasars relativistic electrons would come from accretion-powered jets and in that publication I proposed as candidate sources Cyg X-1 & Cyg X-3. PSR B Mirabel: Perspective in Science (2006)

COMPACT GAMMA-RAY BINARIES IN 2012 Mirabel: Perspective in Science (2012) Sp Types of donors: Casares et al. (2012) Name  -ray s Sp Type PSR B HE, VHE O9.5 Ve AGL J HE ? B3 IV ne+sh HESS J VHE B0 Vpe LS I HE, VHE B0 Ve (?) Name  -ray s Sp Type LS 5039 HE, VHE O6.5 V((f)) 1FGL J1018 HE, VHE? O6 V((f)) Name  -ray s Sp Type Cyg X-3 HE WNE([2,5]) Cyg X-1 HE, VHE? O7 V LS I HE, VHE B0 Ve (?)  -ray binaries are NSs and BHs orbiting massive stars So far no detection of any LMXB (e.g. GRS ) The  -ray emission is modulated with the orbital period  and/or periastron HE, E>100 MeV & VHE, E>100 GeV PRODUCED BY LEPTONIC AND HADRONIC INTERACTIONS HE in superior conjunction

In this area of research, (namely “Compact  –ray binaries”), it would be convenient if CTA could have a low energy threshold. This is also the case to make progress in other areas of high energy astrophysics, such as in studies of Pulsars, GRBs, AGN… In this context, high photon stadistics at a few tens of GeVs would be an advantage to unambiguously identify compact gamma-ray binaries in the Milky Way,

FUTURE CHALLENGES IN THIS AREA OF RESEARCH The typical confusion in star formation regions can be overcomed by correlated multi- orbital modulations in the gamma-rays, X-rays, IR, and radio waves. (e.g. Cyg X-3, 1FGL J ). CTA may provide the required photon statistics for high sensitivity and angular resolution, that would identify a larger population of compact gamma-ray sources in the Milky Way. Since as compact binaries, AGN, blazars, GRBs & neutron stars are rapidly variable sources of  -rays, the “CTA-STAC underlines the importance of all the detector systems, SST, MST and LST, for making possible observations with unique sensitivity, including transient sources down to 20 GeV »

OLD SIMULATION AS A FUNCTION OF ALTITUDE

NEW SIMULATION UP TO 50 GeV AS A FUNCTION OF ALTITUDE FOR 50h 3700 m 2000 m Would the sensitivity change for much shorter exposures? Could the simulations be extended down to 20 Gev? Maier (2013) presented by Hinton at the CTA SSC