NSSDCA ID: PSSB-00446
Availability: Archived at NSSDC, accessible from elsewhere
This description was generated automatically using input from the Planetary Data System. Data Set Overview ================= This data set includes reduced composite visible and near-infrared spectra of 30 M-type asteroids that have been published in Fornasier et al. (2010). The spectra were obtained over the years 2004-2008 at three different telescopes, and used to produce a single composite reduced visible-near-IR spectrum for each asteroid. For one asteroid, 125 Liberatrix, three composite spectra were produced for different times in the same night. The remaining 29 asteroids are represented by a single composite spectrum each. The 75 individual spectra from the NTT/EMMI, NTT/SOFI, TNG/NICS, and TNG/Dolores instruments, which were combined to make the composite spectra, are also included here. The composite spectra are in the subdirectory 'compspectra' and the individual spectra are in the subdirectory 'indivspectra' under the data directory. The individual spectra from the SPeX instrument at IRTF are not included in this data set as they are available in another PDS data set, the IRTF NEAR-IR Spectroscopy of Asteroids, EAR-A-I0046-4-IRTFSPEC-V2.0. At the TNG telescope, the visible spectra were obtained with Dolores (Device Optimized for Low Resolution) equipped with the low resolution red grism (LR-R) covering the 0.51-0.95 micron range with a spectral dispersion of 2.9 A/pixel. Most of the objects were also observed with the low resolution blue grism (LR-B, dispersion of 1.7 A/pixel, 0.4-0.7 micron range). The red and blue spectra in the visible range were separately reduced and then combined to obtain spectral coverage from 0.40 to 0.95 microns. The near-infrared spectra at the TNG were obtained with the NICS (Near Infrared Camera and Spectrometer) equipped with an Amici prism disperser. The equipment covers a spectral range of 0.85-2.40 microns with a spectral resolution of about 35 (Baffa et al. 2001). Both the visible and near infrared observations were made with a 1.5 arcsecond slit width, oriented along the parallactic angle to minimize the effect of atmospheric differential refraction. At the NTT telescope, visible spectra were obtained with the EMMI instrument in RILD mode, using Grism #1 to cover the wavelength range 4100-9600 Angstroms with a dispersion of 3.1 A/pixel at the first order. (An order-separation filter was not used for these observations, because tests with and without the order-separation filter showed that the second-order contribution was negligible.) The near-infrared spectra taken at the NTT telescope were taken with the instrument SOFI (Son OF Isaac) in the low resolution mode (Moorewood et al. 1998). The blue grism, with 0.95-1.64 micron range and dispersion of 6.96 A/pixel, and the red grism with 1.53-2.52 micron range and dispersion of 10.22 A/pixel, were used each with an order sorting filter. The blue and red grisms with their filters are designated as GBF and GRF respectively. The NTT observations were made with a 2 arsecond slit, always oriented along the parallactic angle. At the IRTF, the SpeX instrument was used, with wavelength range of 0.82 to 2.49 microns (Rayner et al. 2004). Spectra were recorded with a 0.8 x 15 arsecond slit oriented in the north-south direction. A dichroic lens reducing the signal below 0.8 microns was used for all observations. Objects were consistently observed near the meridian to minimize the airmass, but total integration time varied from 6 to 30 minutes depending on the strength of the signal relative to sky lines. The composite spectra are all normalized to 1.0 at a wavelength of 0.55 microns. The individual spectra are normalized as follows for the different instruments; NTT/SOFI gb: 1.25 micron NTT/SOFI gr: 2.15 micron NTT/EMMI: 0.55 micron TNG/Dolores (lrr, lrb and mrb): 0.60 micron TNG/NICS: 1.25 micron The thirty-two composite spectra included in this data set are plotted in Figures 1 through 5 in Fornasier et al (2010). The spectra of 132 Aertha, 125 Liberatrix, 201 Penelope, 382 Dodona, 418 Alemannia, and 558 Carmen cover the visible range only, while the remaining asteroids' spectra combine data to cover the visible and near infrared. The plots from the paper are included in a pdf file (spectraplots.pdf) in the document directory to provide easy browsing of the spectra. Observational circumstances for each observation are given in the file obscirc.tab, and reproduce the information in Table 1 of the paper. Each composite spectrum combines all the observations shown for the asteroid in obscirc.tab, except for 785 Zwetana, which used only the TNG observations, omitting the NTT visible observation. (Two errors in Table 1 have been corrected in obscirc.tab: The SOFI observations of 369 Aeria and 498 Tokio are shown in the paper as being both GBF observations, whereas in fact they were one each of GBF and GRF.) For details of the data acquisition and reduction, see Fornasier et al. (2010). References ========== Baffa, C. and 16 colleagues, NICS: The TNG near-infrared camera spectrometer, Astronomy and Astrophysics, 378, 722-728, 2001. Fornasier, S., B.E. Clark, E. Dotto, A. Migliorini, M. Ockert-Bell, and M.A. Barucci, Spectroscopic survey of M-type asteroids, Icarus 210, 655-673, doi:10.1016/j.icarus.2010.07.001, 2010. Moorewood, A., J.-G. Cuby, and C. Lidman, SOFI sees first light at the NNT, Messenger 91, 9-13, 1998. Rayner, J.T., P. M. Onaka, M. C. Cushing and W. D. Vacca, Four Years of Good SpeX, in Ground-based Instrumentation for Astronomy, A. F. M. Moorwood and M. Iye, Eds., Proceedings of the SPIE, vol. 5492, pp. 1498-1509, 2004. These data are available on-line from the Planetary Data System (PDS) at: http://sbn.psi.edu/pds/asteroid/EAR_A_I1092_2_MSPECTRA_V1_0/
Questions and comments about this data collection can be directed to: Dr. David R. Williams
Name | Role | Original Affiliation | |
---|---|---|---|
Dr. Lawrence A. Soderblom | Data Provider | US Geological Survey | lsoderblom@usgs.gov |
Dr. Carol Neese | General Contact | Planetary Science Institute | neese@psi.edu |