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; [[Core]]: CFHT image acquisition, moving object detection, orbit linkage, characterisation. ([[Core_Teleconfs|Teleconference minutes]])
; [[Core]]: CFHT image acquisition, moving object detection, orbit linkage, characterisation. ([[Core_Teleconfs|Teleconference minutes]])
; [[Classical Belt, structure and SDF]] : H-mag distributions, dependence on class.  ABSORBED INTO CORE: Petit as leader.
; [[Binaries]]: mutual orbits, separation, colours.  Leader: A. Parker.
; [[Binaries]]: mutual orbits, separation, colours.  Leader: A. Parker.
; [[Cometary Activity]]:  Search for coma.  Leader: P. Rousselot.
; [[Cometary Activity]]:  Search for coma.  Leader: P. Rousselot.
Line 45: Line 46:
; [[Resonant Populations]] : relative populations, libration amplitude distributions.  Leader: R. Murray-Clay.
; [[Resonant Populations]] : relative populations, libration amplitude distributions.  Leader: R. Murray-Clay.
; [[Scattering]] : Centaurs, Scattering Disk, Oort cloud connection.  Leader: N. Kaib
; [[Scattering]] : Centaurs, Scattering Disk, Oort cloud connection.  Leader: N. Kaib
; [[Classical Belt, structure and SDF]] : H-mag distributions, dependence on class.  ABSORBED INTO CORE: Petit as leader.
 
; [[Surfaces]] : Colours, NIR spectra.  Leader: A. Delsanti.
; [[Surfaces]] : Colours, NIR spectra.  Leader: A. Delsanti.



Revision as of 12:59, 11 February 2016

Upcoming

  • Feb-June 2015: CFHT tracks 15A discoveries of P and M blocks

Data Releases

Collaboration

The Teams will receive the object list for each semester's discoveries as a summary table of internal designations with orbital elements and uncertainties. At release, a typical object will have a semimajor axis uncertainty of 0.1-1%. Dynamical classification using the SSBN 2008 classification will be provided. Core will also provide access to the full astrometry and the imaging data for each detection.

Some topic teams will then wish to propose observations to other telescopes for next-semester studies of the sample; this will likely be the only time when the topic teams have a proposal advantage over the world. At the time of proposal, the ephemerides of most objects will be good to +/- < 30"; the half-year-later CFHT recovery of all objects will have dropped these uncertainties to a few arcseconds by the time P.I.-led exploitation observations occur.

Public

We aim to submit all observations of a given semester to the MPC 6 months after the end of the semester, except for the first semester (2013), which was delayed longer. This gives observers on quarterly systems a chance to propose for telescope deadlines a cycle later with no competition. It also gives the theory teams 5 months to work before the world sees the MPC release. Recovery observations will be sent as a batch to the MPC with the same time delay.

CFHT imaging becomes public a year after the end of each semester, e.g. on August 1, 2016, the 2015A CFHT imaging becomes public to the world.

Collaboration Teams

The principle contact for each team member should be their topic team's leader.

Team leaders can contact the Core.

Full list of OSSOS collaborators
Core
CFHT image acquisition, moving object detection, orbit linkage, characterisation. (Teleconference minutes)
Classical Belt, structure and SDF
H-mag distributions, dependence on class. ABSORBED INTO CORE: Petit as leader.
Binaries
mutual orbits, separation, colours. Leader: A. Parker.
Cometary Activity
Search for coma. Leader: P. Rousselot.
Light curves
Time variable TNOs, phase curves. Leader: S. Benecchi.
Catalogs
Objects slower than OSSOS rate cut) + non-moving object variation (eg. variable stars). Leader: L. Jones.
Occultations
Predictions, observing campaigns. Leader: W. Fraser.
Resonant Populations
relative populations, libration amplitude distributions. Leader: R. Murray-Clay.
Scattering
Centaurs, Scattering Disk, Oort cloud connection. Leader: N. Kaib
Surfaces
Colours, NIR spectra. Leader: A. Delsanti.

SUSPENDED OR MERGED OR DEFUNCT OR INCOMPLETE

Nearby objects
Search for and tracking of objects moving faster than OSSOS cuts (roughly, inside 8 AU). SUSPENDED.
Thermal Modeling
Thermal evolution of objects. Leader: A. Guilbert ALL FUNCTIONS MERGED INTO SURFACES
Jovian Trojans
Proposed Leader: F. Yoshida. Work tasks and worker list never finalized. Does not yet formally exists.

How to join OSSOS

click on title above for a public information page.

Publications and Proposals

Survey

Observations are ongoing! Check the Survey Overview for our progress in getting & processing photons.

The project is surveying four fields in 2013-14, and a new set of four in 2015-16. For great detail, see the survey draft and the Accepted Proposal (access restricted to collaboration only).

Figures for presentations etc.

2013A

  • April 2013 preliminary field layout plot (here for reference. As in the proposal; varied very slightly from the observed location)
  • April 2013 observed plot - as the O and E fields have oppositions a month apart, the E field is shown at its 9 April moon-dark location, and the O field at its 8 May moon-dark location. The known TNOs plotted are for new moon, May 9.
  • 13AE discoveries plot - all positions for 9 April 2013

2013B

Timeline

  • June 6/2012: OSSOS was number 1 ranked CFHT Large program. 560hr awarded.
  • Feb. 2013 - Aug 2013 : 2013A data acquisition.
  • Aug 2013 - late Jan 2014 : 2013B data acquisition.
  • Oct 6/2013: Second OSSOS team meeting, at 2013 DPS meeting in Denver.
  • June 25-27 2014: The OSSOS team workshop in Beaune, France. Meeting Website
  • Nov 2014: Third OSSOS team meeting, 2014 DPS in Tucson.
  • Nov 2015: OSSOS team meeting, 2015 DPS in Washington DC.

Help

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