This KenyonBromley_readme20210202.txt file was generated on 20200730 by Scott J. Kenyon
Links to Publication Field updated 20211209 TK

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GENERAL INFORMATION
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1. Data for: A Pluto-Charon Concerto II. Formation of a Circumbinary Disk of Debris After the Giant Impact


2. Author Information


  Principal Investigator Contact Information
        Name: Scott J. Kenyon
        Institution: Smithsonian Astrophysical Observatory
        Address: 60 Garden Street, Cambridge, MA 02138 USA
        Email: skenyon@cfa.harvard.edu


  Associate or Co-investigator Contact Information
        Name: Benjamin C. Bromley
        Institution: Department of Physics & Astronomy, University of Utah
        Address: 201 JAMES FLETCHER BLDG., 115 S. 1400 E. SLC, UT 84112-0830
        Email:ben.bromley@utah.edu


3. Date of data collection (single date, range, approximate date): 20191115 to 20200220


4. Geographic location of data collection (where was data collected?): NASA discover computer
https://www.nccs.nasa.gov/systems/discover

5. Information about funding sources that supported the collection of the data:

   NASA Emerging World Program: grant NNX17AE24G



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SHARING/ACCESS INFORMATION
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1. Licenses/restrictions placed on the data: 
CC BY NC – Allows others to use and share your data non-commercially and with attribution

2. Links to publications that cite or use the data: Kenyon, Scott J. and Benjamin Bromley (2021) A Pluto-Charon Concerto II. Formation of a Circumbinary Disk of Debris After the Giant Impact. Planetary Science Journal. https://iopscience.iop.org/article/10.3847/1538-3881/abe858/meta


3. Links to other publicly accessible locations of the data: none


4. Links/relationships to ancillary data sets: none


5. Was data derived from another source?
           If yes, list source(s): none


6. Recommended citation for the data: Kenyon, Scott J. and Benjamin Bromley (2021) Data for: A Pluto-Charon Concerto II. Formation of a Circumbinary Disk of Debris After the Giant Impact. The Hive: University of Utah Research Data Repository.


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DATA & FILE OVERVIEW
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Files summarized in item 1 are ASCII output files from coagulation calculations as described in Kenyon & Bromley 2020. 

1. chc1-kklm.dat files: naming convention 


kk = model number (01-11, from Table 1 in KB2020)

kk = 01: Q_s = 7e7, e_s=-0.45, Q_g = 2.1, e_g = 1.19, v_c = 1 km/sec
kk = 02: Q_s = 4e6, e_s=-0.45, Q_g = 2.1, e_g = 1.19, v_c = 1 km/sec
kk = 03: Q_s = 2e5, e_s=-0.45, Q_g = 2.1, e_g = 1.19, v_c = 1 km/sec
kk = 04: Q_s = 2e5, e_s=-0.40, Q_g = 0.3, e_g = 1.35, v_c = 1 km/sec
kk = 05: Q_s = 4e6, e_s=-0.40, Q_g = 0.3, e_g = 1.35, v_c = 1 km/sec
kk = 06: Q_s = 1e4, e_s=-0.40, Q_g = 0.3, e_g = 1.35, v_c = 1 km/sec
kk = 07: Q_s = 1e3, e_s=-0.40, Q_g = 0.3, e_g = 1.35, v_c = 1 km/sec
kk = 08: Q_s = 4e6, e_s=-0.20, Q_g = 0.3, e_g = 1.35, v_c = 1 km/sec
kk = 09: Q_s = 4e6, e_s=-0.00, Q_g = 0.3, e_g = 1.35, v_c = 1 km/sec
kk = 10: Q_s = 4e6, e_s=-0.40, Q_g = 0.3, e_g = 1.35, v_c = 1.4 km/sec
kk = 11: Q_s = 4e6, e_s=-0.40, Q_g = 0.3, e_g = 1.35, v_c = 2 km/sec

l = initial slope of size distribution for r < r_s (1-7)

l = 1 (q_s = -3)
l = 2 (q_s = -2)
l = 3 (q_s = -1)
l = 4 (q_s = 0)
l = 5 (q_s = +1)
l = 6 (q_s = +2)
l = 7 (q_s = +3)

m = initial size for inflection point of size distribution (r_s)

m = 1 (r_s = 1 km)
m = 2 (r_s = 3 km)
m = 3 (r_s = 10 km)
m = 4 (r_s = 30 km)
m = 5 (r_s = 100 km)

2. Format of data files

Data files as named above are stored in a single tar file "chc1-kklm.dat.tar".
Once extracted, all files have the same ASCII format and are ready to use in a python program

line 1: header
line 2: header with pre-selected times for the output
line 3: header with actual times for the output from the calculation
lines 4-n: 18 columns of data (all output in f8.3 format)

column 1: semimajor axis of annulus
column 2: log particle radius (in cm) 
columns 3-18: log number of particles 

3. Python program cc1.py with output cc1.jpg, cc1.eps, and cc1.pdf generates
a figure from the paper (within anaconda).

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METHODOLOGICAL INFORMATION
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1. Description of methods used for collection/generation of data: 

The data were generated by computer simulations using the C++ code "Orchestra", a
proprietary hybrid code that follows the dynamical evolution of solids and gas 
orbiting a central object. Algorithms in the code are described in the following
papers (author names abbreviated to B for Bromley, K for Kenyon, and L for 
Jane X Luu along with a year for publication date, AJ = Astronomical Journal, 
ApJ = Astrophysical Journal, S=Supplement): KL1998, AJ 115:2136; 
KL1999, AJ 118:1101; KB2001,AJ 121:538; KB2002,AJ 123:1757; KB2004, AJ 127:513; 
BK2006, AJ 131:2737; KB2006, AJ 131:1837; KB2008, ApJS 179:451; KB2010, ApJS 188:242;
BK2011, ApJ 731:101; KB2012, AJ 143:63; KB2014, AJ 147:8. Initial conditions for 
these simulations described in the published paper.

2. Methods for processing the data: 

Various C and fortran programs are used to analyze the data for the calculations. 
The ASCII format convention described above should be sufficient to extract data
from the files. A single python script is included in the data distribution.

3. Instrument- or software-specific information needed to interpret the data:  none

4. Standards and calibration information, if appropriate: none

5. Environmental/experimental conditions: all calculations were run on the NASA 
discover cluster

6. Describe any quality-assurance procedures performed on the data: 

Aside from tests summarized in the papers described in item 1, test calculations are 
summarized in the Appendix of each paper and compared to an appropriate benchmark.


7. People involved with sample collection, processing, analysis and/or submission: 
Scott Kenyon and Ben Bromley