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Observations are ongoing for 13B discoveries! Check the [http://collab.astrosci.ca:8080/ Survey Overview] for our progress in getting & processing photons.
= About OSSOS =


'''Upcoming'''
'''OSSOS observing ended in 2017.'''  
* Feb-June 2014: CFHT provides additional astrometry for 13A discoveries.
* August 2014:  All OSSOS imaging on 13A targets will have been acquired.


Survey observations were acquired between 2013 and 2017 by the [http://www.cfht.hawaii.edu Canada France Hawaii Telescope] and are processed and distributed using the [http://www.canfar.net Canadian Advanced Network For Astronomical Research].  For additional public information is available from [http://www.ossos-survey.org our public web site]


== Data Releases ==
= Refereed Journal Articles =


=== Collaboration Data Releases ===
# [https://ui.adsabs.harvard.edu/abs/2016AJ....151...31S|OSSOS. II. A Sharp Transition in the Absolute Magnitude Distribution of the Kuiper Belt’s Scattering Population] (2016) Shankman et al.
# [https://ui.adsabs.harvard.edu/abs/2016AJ....152...23V|OSSOS III—Resonant Trans-Neptunian Populations: Constraints from the first quarter of the Outer Solar System Origins Survey] (2016) Volk et al.
# [https://ui.adsabs.harvard.edu/abs/2016AJ....152...70B|The Outer Solar System Origins Survey. I. Design and First-quarter Discoveries] (2016) Bannister et al.
# [https://ui.adsabs.harvard.edu/abs/2016AJ....152..212B|OSSOS. IV. Discovery of a Dwarf Planet Candidate in the 9:2 Resonance with Neptune] (2016) Bannister et al.
# [https://ui.adsabs.harvard.edu/abs/2017AJ....153..262B|OSSOS. V. Diffusion in the Orbit of a High-perihelion Distant Solar System Object] (2017) Bannister et al.
# [https://ui.adsabs.harvard.edu/abs/2017AJ....154...50S|OSSOS. VI. Striking Biases in the Detection of Large Semimajor Axis Trans-Neptunian Objects] (2017) Shankman et al.
# [https://ui.adsabs.harvard.edu/abs/2018AJ....155..197L|OSSOS. VIII. The Transition between Two Size Distribution Slopes in the Scattering Disk] (2018) Lawler et al.
# [https://ui.adsabs.harvard.edu/abs/2018ApJS..236...18B|OSSOS. VII. 800+ Trans-Neptunian Objects—The Complete Data Release] (2018) Bannister et al.
# [https://ui.adsabs.harvard.edu/abs/2018FrASS...5...14L|OSSOS: X. How to use a Survey Simulator: Statistical Testing of Dynamical Models Against the Real Kuiper Belt] (2018) Lawler et al.
# [https://ui.adsabs.harvard.edu/abs/2018AJ....155..260V|OSSOS. IX. Two Objects in Neptune's 9:1 Resonance—Implications for Resonance Sticking in the Scattering Population] (2018) Volk et al.
# [https://ui.adsabs.harvard.edu/abs/2019A&A...621A.102C|OSSOS. XI. No active centaurs in the Outer Solar System Origins Survey] (2019) Cabral et al.
# [https://ui.adsabs.harvard.edu/abs/2019AJ....157..253L|OSSOS. XIII. Fossilized Resonant Dropouts Tentatively Confirm Neptune’s Migration Was Grainy and Slow] (2019) Lawler et al.
# [https://ui.adsabs.harvard.edu/abs/2019AJ....158...43K|OSSOS. XV. Probing the Distant Solar System with Observed Scattering TNOs] (2019) Kaib et al.
# [https://ui.adsabs.harvard.edu/abs/2019AJ....158...49V|OSSOS. XIV. The Plane of the Kuiper Belt] (2019) Van Laerhoven et al.
# [https://ui.adsabs.harvard.edu/abs/2019AJ....158..132N|OSSOS. XIX. Testing Early Solar System Dynamical Models Using OSSOS Centaur Detections] (2019) Nesvorný et al.
# [https://ui.adsabs.harvard.edu/abs/2019ApJS..244...19A|OSSOS. XII. Variability Studies of 65 Trans-Neptunian Objects Using the Hyper Suprime-Cam] (2019) Alexandersen et al.
# [https://ui.adsabs.harvard.edu/abs/2019AJ....158..214C|OSSOS. XVIII. Constraining Migration Models with the 2:1 Resonance Using the Outer Solar System Origins Survey] (2019) Chen et al.
# [https://ui.adsabs.harvard.edu/abs/2020NatAs...4...89P|A dearth of small members in the Haumea family revealed by OSSOS] (2020) Pike et al.
# [https://ui.adsabs.harvard.edu/abs/2020AJ....160...46N|OSSOS XX: The Meaning of Kuiper Belt Colors] (2020) Nesvorný et al.
# [https://ui.adsabs.harvard.edu/abs/2021Icar..35613793A|OSSOS. XVII. An upper limit on the number of distant planetary objects in the Solar System] (2021) Ashton et al.
# [https://ui.adsabs.harvard.edu/abs/2021AJ....161..195A|OSSOS. XXI. Collision Probabilities in the Edgeworth-Kuiper Belt] (2021) Abedin et al.
# [https://ui.adsabs.harvard.edu/abs/2021Icar..36114391L|OSSOS: The eccentricity and inclination distributions of the stable Neptunian Trojans] (2021) Lin et al.
# [https://ui.adsabs.harvard.edu/abs/2021ApJ...920L..28K|OSSOS Finds an Exponential Cutoff in the Size Distribution of the Cold Classical Kuiper Belt] (2021) Kavelaars et al.
# [https://ui.adsabs.harvard.edu/abs/2021PSJ.....2..212A|OSSOS. XXIII. 2013 VZ<SUB>70</SUB> and the Temporary Coorbitals of the Giant Planets] (2021) Alexandersen et al.
# [https://ui.adsabs.harvard.edu/abs/2022PSJ.....3..113C|OSSOS XXV: Large Populations and Scattering-Sticking in the Distant Trans-Neptunian Resonances] (2022) Crompvoets et al.
# [https://ui.adsabs.harvard.edu/abs/2022AJ....164..261A|OSSOS. XXVI. On the Lack of Catastrophic Collisions in the Present Kuiper Belt] (2022) Abedin et al.
# [https://ui.adsabs.harvard.edu/abs/2023ApJ...947L...4P|The Hot Main Kuiper Belt Size Distribution from OSSOS] (2023) Petit et al.
# [https://ui.adsabs.harvard.edu/abs/2023PSJ.....4..110D|OSSOS. XXVII. Population Estimates for Theoretically Stable Centaurs between Uranus and Neptune] (2023) Dorsey et al.
 
= Data Releases =
 
=== Collaboration ===


The Teams will receive the object list for each semester's discoveries as a summary table of
The Teams will receive the object list for each semester's discoveries as a summary table of
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for next-semester studies of the sample; this will likely be the only time when the topic
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  
teams have a proposal advantage over the world. At the time of proposal, the ephemerides of most objects  
will be good to +/- <1 arcmin; the half-year-later CFHT recovery of all objects will have dropped  
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.   
these uncertainties to a few arcseconds by the time P.I.-led exploitation observations occur.   


* '''[[2013AE data release]]''' (access restricted to collaboration only)
*<span style="color:red">'''[[OSSOS data release access|Data releases]]''' (access restricted to collaboration only)</span>
 
[[MPC codes used in flagging astrometry]]


=== Public data releases ===
=== Public ===


We aim to submit all observations of a given semester to the MPC 6 months after
We aim to submit all observations of a given semester to the MPC 6 months after
the end of the semesters; e.g. for 2013A, an MPC submission at the end of January 2014.  
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
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.  
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 in the same manner, e.g. an MPC submission
Recovery observations will be sent as a batch to the MPC with the same time delay.
in August 2014 for the Feb-July 2014 recoveries of the 2013 detections.


* August 1, 2014: 2013A CFHT imaging becomes public to the world.
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.


== Field Layout ==
= Collaboration Teams =
The principle contact for each team member should be their topic team's leader.


2013A
Team leaders can [mailto:ossoscore@gmail.com contact the Core].<!--- or [mailto:ossos-teamleads@lists.astrosci.ca all other team leaders].--->
*[http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/FieldLayout_13A.pdf OSSOS April 2013 preliminary field layout] plot (here for reference. As in the proposal; varied very slightly from the observed location)
; [[Full list of OSSOS collaborators]]
*[http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/ObservedFields_13A.pdf OSSOS 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.
**[http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/13AE_discoveries.pdf 13AE discoveries] plot - all positions for 9 April 2013


2013B
; [[Core]]: CFHT image acquisition, moving object detection, orbit linkage, characterisation. ([[Core_Teleconfs|Teleconference minutes]])
*[http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/ObservedFields_13B.pdf OSSOS October 2013 field layout] plot. The field positions and known TNO locations at October 2013 new moon (4 October).
; - [[Classical Belt, structure and SDF]] : H-mag distributions, dependence on class.  ABSORBED INTO CORE: Petit as leader.
; [[Catalogs]] : Objects slower than OSSOS rate cut) + non-moving object variation (eg. variable stars).  Leader: L. Jones.
; [[Binaries]]: mutual orbits, separation, colours.  Leader: K. Noll.
; [[Cometary Activity]]:  Search for coma.  Leader: P. Rousselot.
; [[Light curves]] : Time variable TNOs, phase curves. Leader: M. Schwamb.
; [[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.


The project will be surveying two sets of fields, spring and fall.  For great detail,
== How to join OSSOS ==  
see the [[OSSOSurveyDraft]] and the [http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/LP_Proposal.pdf Accepted Proposal] (access restricted).
In each season a 7x3 block of fields will be positioned near the ecliptic plane and a second group of fields will be positioned off the plane.  Each set of fields will be observed repeatedly through-out the semester (a few nights per dark run for 5 dark runs centered on the April/May dark runs for the on/off ecliptic fields). These fields will then be re-observed in 2014A to obtain a high-precision orbits on all KBOs detected in the field. The discovery triplet (near opposition) is the crucial portion, because this is the only place where the magnitude performance will be measured; tracking of objects with detection magnitudes brighter than the 40% efficiency should be >95%.


In addition to deep imaging done to discover and track the TNOs,
See the main OSSOS web site:  http://www.ossos-survey.org/get-involved.html
a heavily-overlapping set of shallower imaging (grey boxes in the layout figure) will allow an extremely precise internal
astrometric (and relative photometric) solution in each patch, tied to Sloan.
Based on a pathfinder project, this yields orbits of 0.1-1% semimajor axis uncertainty
inside the first 5 months, and a factor of 10-30 better by the end of the second
year. (RMS residuals are 30-50 milli-arcseconds for bright targets, and 80-100 for fainter ones).


OSSOS will go deeper than
== [[Publications and Proposals]] ==
previous 4-meter class surveys due to both operations in queue mode and (after mid 2013)
the expected IQ improvement provided by CFHT's dome venting (which will lower the median
IQ from the current 0.72" to
the range 0.6-0.65").
With an expected 40% detection efficiency at r-band magnitude 24.4-24.5, in the
ecliptic OSSOS will yield something like 3-4 objects per square degree, with
about half that sky density for the off-ecliptic fields.


* [[Publications and Proposals]] (where team members log papers, proposals, and talks)
* [[ACKNOWLEDGEMENTS]] needed for OSSOS collaboration papers.


== Topic Teams ==
* [https://www.dropbox.com/sh/jxvl9j3exmdj5ff/AABpMP6GB-02we0W-ThVGVAAa?dl=0 Survey and Team logos] for use in presentations etc (high-res PNGs).
* The font is (free!) Sofia Pro Light. [https://www.fontspring.com/fonts/mostardesign/sofia-pro Download it here].


[[Joining OSSOS|How to join OSSOS]]
* [[Media log]]


The OSSOS project is divided into topic-teams that are each responsible for ensuring that a particular aspect of the survey science is fully exploited.  At the start of the survey each member of the project has elected to participate in one or two topic teams, based on their science interests as stated at the start of the survey.  By joining a topic team the science team member is committing to helping the Team in this area of science exploitation.  Each team selects one of the team members to be the Team Leader who will act as the principle information conduit back to the survey and is responsible for keeping the topic team focused, organized, and sharing information so that progress is made.
= Survey =


  '''Team members MUST have a precise well-defined role for what they are committed to do in that Topic Team,'''
Observations have concluded.  
  '''and agree to openly collaborate with other members of that Topic Team who share similar interests.'''
  The OSSOS collaborational agreement (to be electronically signed early April 2013 to get access to the data flow)
  must be accepted by each OSSOS collaborator that wishes access to the target list and OSSOS Survey Simulator
  before the world release.


Original proposals: see the [[OSSOSurveyDraft|survey draft]] and the
[http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/LP_Proposal.pdf Accepted Proposal] (access restricted to collaboration only).


==== OSSOS collaboration, alphabetical listing ====
== Figures for presentations etc. ==


; '''[[Full list of OSSOS collaborators]]''' is available.
=== 2013A ===
* [http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/FieldLayout_13A.pdf April 2013 preliminary field layout] plot (here for reference. As in the [http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/LP_Proposal.pdf proposal]; varied very slightly from the observed location)
* [http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/ObservedFields_13A.pdf 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.
*[http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/13AE_discoveries.pdf 13AE discoveries] plot - all positions for 9 April 2013


==== Core Team ====
=== 2013B ===
; '''[[Core]]''' : Observation acquisition, moving object detection, orbit linkage, characterization
* [http://www.cadc.hia.nrc.gc.ca/data/pub/vospace/OSSOS/Documents/ObservedFields_13B.pdf October 2013 field layout] plot. The field positions and known TNO locations at October 2013 new moon (4 October).


The OSSOS LP proposal is available on the Core Team's page.
= Calibration =


==== Alphabetical Topic Team list ====
* Details on the original calibration methods [[Astrometry and Photometry]]


; [[Binaries]]: mutual orbits, separation, colours.  Leader: A. Parker.
* Details on the final calibration methods [[Astrometry and Photometry]]
; [[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.
; [[Nearby objects]]: Search for and tracking of objects moving faster than OSSOS cuts (roughly, inside 8 AU).  SUSPENDED.
; [[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
; [[Classical Belt, structure and SDF]] : H-mag distributions, dependence on class.  ABSORBED INTO CORE: Petit as leader.
; [[Surfaces]] : Colours, NIR spectra.  Leader: A. Delsanti.
; [[Thermal Modeling]]: Thermal evolution of objects.  Leader: A. Guilbert
 
== Publications and Proposals ==


[https://www.dropbox.com/sh/wahdpnc9nq8gcls/g0IKwbrCt9?lst Survey and Team logos] for use in presentations etc (high-res PNGs). The font is (free!) Sofia Pro Light. [https://www.fontspring.com/fonts/mostardesign/sofia-pro Download it here].
= Timeline =
 
; [[Publications and Proposals]] should be entered on this link.
 
== Principle Contacts ==
 
At the current time, the principle contact for each team member should be their Topic Team's
Team Leader.  Team Leader's can contact any of the three core-team members:
 
[mailto:gladman@astro.ubc.ca Brett Gladman]
 
[mailto:jjk@uvic.ca JJ Kavelaars]
 
[mailto:petit@obs-besancon.fr Jean-Marc Petit]
 
==== Timeline and Upcoming Deadlines ====


* June 6/2012: OSSOS was number 1 ranked CFHT  Large program.  560hr awarded.
* June 6/2012: OSSOS was number 1 ranked CFHT  Large program.  560hr awarded.
* Jan 2013: OSSOS began observation.
* Oct 6/2013: Second OSSOS team meeting, at 2013 DPS meeting in Denver.
* June 25-27 2014:  OSSOS team workshop in Beaune, France. [http://www.phas.ubc.ca/~gladman/ossos Meeting Website]
* Nov 2014: Third OSSOS team meeting, 2014 DPS in Tucson.
* Nov 2015: Fourth OSSOS team meeting, 2015 DPS in Washington DC.
* Oct 2016: Fifth OSSOS team meeting just before 2016 DPS/EPSC in Pasedena
* Jan 31/2017: End of 4-year CFHT OSSOS LP allocation
* July 2017: Sixth OSSOS team meeting in Belfast, UK.
* Dec 2017: OSSOS concluded observation.


* 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.


== Help ==
== Help ==


Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software.
Consult the [http://meta.wikimedia.org/wiki/Help:Contents User's Guide] for information on using the wiki software.

Latest revision as of 13:23, 4 July 2023

About OSSOS

OSSOS observing ended in 2017.

Survey observations were acquired between 2013 and 2017 by the Canada France Hawaii Telescope and are processed and distributed using the Canadian Advanced Network For Astronomical Research. For additional public information is available from our public web site

Refereed Journal Articles

  1. II. A Sharp Transition in the Absolute Magnitude Distribution of the Kuiper Belt’s Scattering Population (2016) Shankman et al.
  2. III—Resonant Trans-Neptunian Populations: Constraints from the first quarter of the Outer Solar System Origins Survey (2016) Volk et al.
  3. Outer Solar System Origins Survey. I. Design and First-quarter Discoveries (2016) Bannister et al.
  4. IV. Discovery of a Dwarf Planet Candidate in the 9:2 Resonance with Neptune (2016) Bannister et al.
  5. V. Diffusion in the Orbit of a High-perihelion Distant Solar System Object (2017) Bannister et al.
  6. VI. Striking Biases in the Detection of Large Semimajor Axis Trans-Neptunian Objects (2017) Shankman et al.
  7. VIII. The Transition between Two Size Distribution Slopes in the Scattering Disk (2018) Lawler et al.
  8. VII. 800+ Trans-Neptunian Objects—The Complete Data Release (2018) Bannister et al.
  9. X. How to use a Survey Simulator: Statistical Testing of Dynamical Models Against the Real Kuiper Belt (2018) Lawler et al.
  10. IX. Two Objects in Neptune's 9:1 Resonance—Implications for Resonance Sticking in the Scattering Population (2018) Volk et al.
  11. XI. No active centaurs in the Outer Solar System Origins Survey (2019) Cabral et al.
  12. XIII. Fossilized Resonant Dropouts Tentatively Confirm Neptune’s Migration Was Grainy and Slow (2019) Lawler et al.
  13. XV. Probing the Distant Solar System with Observed Scattering TNOs (2019) Kaib et al.
  14. XIV. The Plane of the Kuiper Belt (2019) Van Laerhoven et al.
  15. XIX. Testing Early Solar System Dynamical Models Using OSSOS Centaur Detections (2019) Nesvorný et al.
  16. XII. Variability Studies of 65 Trans-Neptunian Objects Using the Hyper Suprime-Cam (2019) Alexandersen et al.
  17. XVIII. Constraining Migration Models with the 2:1 Resonance Using the Outer Solar System Origins Survey (2019) Chen et al.
  18. dearth of small members in the Haumea family revealed by OSSOS (2020) Pike et al.
  19. XX: The Meaning of Kuiper Belt Colors (2020) Nesvorný et al.
  20. XVII. An upper limit on the number of distant planetary objects in the Solar System (2021) Ashton et al.
  21. XXI. Collision Probabilities in the Edgeworth-Kuiper Belt (2021) Abedin et al.
  22. The eccentricity and inclination distributions of the stable Neptunian Trojans (2021) Lin et al.
  23. Finds an Exponential Cutoff in the Size Distribution of the Cold Classical Kuiper Belt (2021) Kavelaars et al.
  24. XXIII. 2013 VZ70 and the Temporary Coorbitals of the Giant Planets (2021) Alexandersen et al.
  25. XXV: Large Populations and Scattering-Sticking in the Distant Trans-Neptunian Resonances (2022) Crompvoets et al.
  26. XXVI. On the Lack of Catastrophic Collisions in the Present Kuiper Belt (2022) Abedin et al.
  27. Hot Main Kuiper Belt Size Distribution from OSSOS (2023) Petit et al.
  28. XXVII. Population Estimates for Theoretically Stable Centaurs between Uranus and Neptune (2023) Dorsey et al.

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.
Catalogs
Objects slower than OSSOS rate cut) + non-moving object variation (eg. variable stars). Leader: L. Jones.
Binaries
mutual orbits, separation, colours. Leader: K. Noll.
Cometary Activity
Search for coma. Leader: P. Rousselot.
Light curves
Time variable TNOs, phase curves. Leader: M. Schwamb.
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

See the main OSSOS web site: http://www.ossos-survey.org/get-involved.html

Publications and Proposals

Survey

Observations have concluded.

Original proposals: 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

Calibration

Timeline

  • June 6/2012: OSSOS was number 1 ranked CFHT Large program. 560hr awarded.
  • Jan 2013: OSSOS began observation.
  • Oct 6/2013: Second OSSOS team meeting, at 2013 DPS meeting in Denver.
  • June 25-27 2014: OSSOS team workshop in Beaune, France. Meeting Website
  • Nov 2014: Third OSSOS team meeting, 2014 DPS in Tucson.
  • Nov 2015: Fourth OSSOS team meeting, 2015 DPS in Washington DC.
  • Oct 2016: Fifth OSSOS team meeting just before 2016 DPS/EPSC in Pasedena
  • Jan 31/2017: End of 4-year CFHT OSSOS LP allocation
  • July 2017: Sixth OSSOS team meeting in Belfast, UK.
  • Dec 2017: OSSOS concluded observation.


Help

Consult the User's Guide for information on using the wiki software.

Retrieved from "https://wiki.ossos-survey.org//index.php?title=Main_Page&oldid=4296"