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The observations of GRB optical afterglow with 6-meter telescope:

The observations of GRB optical afterglow with 6-meter telescope: recent results and future plans T.A. Fatkhullin and SAO RAS follow-up team. Nizhnij Arkhyz, 2009. History of the 6-meter telescope proposal. 10 years (1999-2009) of the GRB observation program (P.I.: A.J. Castro-Tirado)

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The observations of GRB optical afterglow with 6-meter telescope:

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  1. The observations of GRB optical afterglow with 6-meter telescope: recent results and future plans T.A. Fatkhullin and SAO RAS follow-up team Nizhnij Arkhyz, 2009

  2. History of the 6-meter telescope proposal • 10 years (1999-2009) of the GRB observation program (P.I.: A.J. Castro-Tirado) • Collaboration with Italy, Spain, USA, France, India, Ukraine, Turkey colleagues (from 0.5 to 8 meter optical and NIR telescopes, IRAM 30-m mm telescope). You are wellcome!

  3. Calar Alto-Spain ORM-Spain SAO-Russia Izaña-Spain PdB-France BOOTES-Spain OSN-Spain Mt. John-New Zealand

  4. The “Indian” connection 2.01m, HCT, IAO 1.04m, ST, Naini Tal 2.34m, VBT, Kavalur

  5. Main observational aims: • Early spectroscopy (GRB-SN connection, environment) • Spectroscopic monitoring (GRB-SN connection, progenitors) • Deep early photometry for short-lived GRBs (Progenitors, GRB bimodality) • Photometry and spectroscopy of GRB host galaxies (Progenitor environment, hosts properties)

  6. Early spectroscopy of the GRB030329/SN2003dh afterglow SN features was detected in early afterglow spectra (T - T0≈ 11 hours) Multi pupil fiber spectrograph GRB afterglow spectroscopy in early phase allows to study SN explosion physics near moment of core collapse!

  7. 6-meter telescope instrumentation SCORPIO - is a multi-mode focal reducer of the 6-meter telescope (imaging, long-slit and multi-slit spectroscopy, broad-band polarimetry and spectropolarimetry) The main instrument used

  8. Early spectra of the XRF060218/SN2006aj and its spectral evolution Spectral evolution showed a transition from photospheric to nebular phase as it is well known for SNe (comfirmation of SN-GRB connection) Nebular phase Photospheric phase

  9. XRF080109/SN2008D spectral evolution The spectra showed possible high-velocity Hα line (more details in the other presentation) High-velocity Hα line

  10. GRB090726 early spectroscopy GRB afterglow spectroscopy provides detailed analysis of the ISM of actively- starforming galaxies (metallicity, extinction curve, etc). ZOT = 2.71

  11. SWIFT J195509+261406: candidate to Galactic magnetar Castro-Tirado et al., 2008, Nature, vol 455, issue 7212, pp 506-509 In initial phase (first 3 days) the object showed burst activity in optics and X-rays. a) light curve in optics (IC band) b) light curve in X-rays (SWIFT/XRT and XMM-Newton) Log-normal distribution of optical bursts

  12. SWIFT J195509+261406: candidate to Galactic magnetar After a 3-day activity the object has disappeared in the deep optic and NIR images BTA/SCORPIO deep images of SWIFT J195509+261406 field

  13. Photometry of short-lived GRB050509B BTA images of GRB 050509b, first short GRB X-ray afterglow localized accurately by Swift(Castro-Tirado et al. 2005). In an elliptical galaxy at z = 0.225. Support for binary mergers (Gehrels et al. 2005). First Detections of optical and radio afterglows for GRB 050709 and 050724 (Hjorth et al. 2005, Berger et al. 2006). Flaring in GRB 050724 (Barthelmy et al. 2005) not easy to model.

  14. GRB host galaxies observations Hubble diagram for GRB host galaxies (beginning of the program) Host galaxies observations are very important for our understanding of progenitor nature! .... History of heavy elements enrichment, dust obscuration and star-formation history in the Universe Most distant GRB detected so far is 8.3 (Tanvir et al., with 6-meter telescope contribution)!

  15. Spectroscopy of dark GRB051022 host galaxy Redshift from emission lines z = 0.809 Corrected for internal extinction SFR ≈ 50 M☼/yr

  16. Some applications of GRB host galaxies observations Deep GRB021004 host galaxy field Up to 1000 objects in 4.3x4.3 arcmin field (in the R-band, with Rlim ≈ 26.5). Study galaxies at intermediate redshifts of 1-3. Estimations show we can detect ~1 CC-SNe per year

  17. Some applications of GRB host galaxies observations Up to 1000 objects in 4.3x4.3 arcmin field (in the R-band, with Rlim ≈ 26.5). «Magnitude-counts» diagram in R-band

  18. Future plans • Start of SNe observational program: systematic studies of propertiesofSNe with and without GRB, assymetry of explosion, progenitor circum-stellar enviroment • Spectroscopy and deep photometry of afterglow (to be continued) • Polarimetry and spectropolarimetry:assymetry of explosion, structure of ejecta • New instrumentation: IFU for rapid-response spectroscopy?

  19. Thank you!

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