# input.properties # # Lisa input properties file # # Lisa (c) 2004 The Martin D. Adamiker LLC # # Lisa.Snapshot.Time # The time to be used for plotting the map. # may be specified in one of the three following formats: # # YYYY MM DD[.DDDD] UTC|TT|TDB # YYYY MM DD hh:mm[:ss[.ss]] UTC|TT|TDB # JJJJJJJ[.JJJJJ] JD UTC|TT|TDB # # where: # YYYY year number # MM month number (1..12) # DD.DDDDD day number (0.0...31.99999), optionally with # decimal places, the first day of the month is 1.0 # hh hours # mm minutes # ss.ss seconds, optionally with decimal places # JJJJJJJ.JJJJJ Julian Date, optionally with decimal places # UTC (string constant) Coordinated Universal Time # TT (string constant) Terrestrial Time # TDB (string constant) Barycentric Dynamical Time # Lisa.Snapshot.Time = "2003 01 01 00:00:00 TT" # Lisa.Snapshot.Exposuretime # The time of the exposure in days. # Asteroids are plotted as X-es (position as of Lisa.Snapshot.Time) # and a trail up to the position as of # Lisa.Snapshot.Time + Lisa.Snapshot.Exposuretime Lisa.Snapshot.Exposuretime = 0.5 # Lisa.Observer.Body # The name of the body where the observer is. # Allowed values: "Earth", "Moon", "Sun", "Mercury", "Venus", # "Mars", "Jupiter", "Saturn", "Uranus", "Neptune", "Pluto" # Note: So far only "Earth" has been tested. # All other values are planned to be supported in a future version. Lisa.Observer.Body = "Earth" # Lisa.Observer.Longitude # Longitude of the observer on the observer's home planet. # Note: So far only "Earth" has been tested. # All other values are planned to be supported in a future version. Lisa.Observer.Longitude = "-16:22:00.1" # Lisa.Observer.Latitude # Latitude of the observer on the observer's home planet. # Note: So far only "Earth" has been tested. # All other values are planned to be supported in a future version. Lisa.Observer.Latitude = "48:13:00.1" # Lisa.Observer.ElevationMeters # Elevation of the observer on the observer's home planet. # Note: So far only "Earth" has been tested. # All other values are planned to be supported in a future version. # On Earth, the geographice WGS 84 model is applied. Lisa.Observer.ElevationMeters = 220.0 # Lisa.Projection.ProjectionType # The projection type. # There are two groups of projection types available: # 1. Central projections: # The projection beam emerges from the center of the celestial sphere. # The image center is called the reference point. # Angular distances (Omega) from the reference point are projected # differently as Omega' onto the 2 dimensional map: # 1.1 ArcLength: Omega' = Omega # 1.2 Sine: Omega' = sin(Omega) # 1.3 Tangent: Omega' = tan(Omega) # 2. Stereographic projections: # The projection beam emerges from the opposite side of the celestial sphere. # It is a special case of a perspective zenithal projection with µ = 1. # 3. Cartesian projection: # Not a real projection; RA and Decl are converted to x and y by linear functions. # # Valid choices: # # "ArcLength" # "Sine" # "Tangent" # "Stereographic" # "Cartesian" # Lisa.Projection.ProjectionType = "ArcLength" # Lisa.Projection.ReferencePoint.RightAscension # Right ascension of the reference point, in hours, minutes and # seconds. Reference point is the center point on the map. # Format: hh:mm:ss[.ss] # Negative values for hh are not permitted. Lisa.Projection.ReferencePoint.RightAscension = "00:00:00" # Lisa.Projection.ReferencePoint.Declination # Declination of the reference point in degrees, minutes and # seconds. Reference point is the center point on the map. # Format: dd:mm:ss[.ss] # Positive dd values designate northern declination. # Negative values designate southern declination. Lisa.Projection.ReferencePoint.Declination = "-90:00:00" # Lisa.Projection.Extent.RightAscension # The extent of the map in right ascension, in hours as a decimal # value. #Lisa.Projection.Extent.RightAscension = 0.01 Lisa.Projection.Extent.RightAscension = 24.0 # Lisa.Projection.Extent.Declination # The extent of the map in declination, in degrees as a decimal # value. #Lisa.Projection.Extent.Declination = 0.125 Lisa.Projection.Extent.Declination = 2.0 # Lisa.Projection.Scale # The relative scale of the map. The larger this value, the larger # the map. Note: this value is only a relative measure and does not # designate any length or extent in nature. #Lisa.Projection.Scale = 640000.0 Lisa.Projection.Scale = 40000 # Lisa.Projection.Grid.RightAscension # Number of RA subdivisions for the coordinate grid. # There will be Lisa.Projection.Grid.RightAscension + 1 lines drawn. # Each line is labeled with the full RA value. # Recommended values: 2, 4, 8 Lisa.Projection.Grid.RightAscension = 8 # Lisa.Projection.Grid.Label.RightAscension # Describes where the RA labels are plotted. # Possible values: "BOTTOM", "TOP" Lisa.Projection.Grid.Label.RightAscension = "TOP" # Lisa.Projection.Grid.Declination # Number of declination subdivisions for the coordinate grid. # Does not have to be the same as Lisa.Projection.Grid.RightAscension # There will be Lisa.Projection.Grid.Declination + 1 lines drawn. # Each line is labeled with the full declination value. # Recommended values: 2, 4, 8 Lisa.Projection.Grid.Declination = 8 # Lisa.Projection.Grid.Label.Declination # Describes where the declination labels are plotted. # Possible values: "LEFT", "RIGHT" Lisa.Projection.Grid.Label.Declination = "LEFT" # Lisa.Limits.Magnitude.Objects # The limiting magnitude for all objects. # Only objects equal or brighter than this value are plotted. # Valid: 0...30 Lisa.Limits.Magnitude.Objects = 25.0 # Lisa.Limits.Magnitude.Text # The limiting magnitude for objects to be labeled. # Only objects equal or brighter than this value are labeled. # Valid: 0...30 Lisa.Limits.Magnitude.Text = 15.0 # Lisa.DrawingMode.Monochrome # If set to "TRUE", then all objects are plotted black, # even if there is color information (B-U-V magnitudes) available. # If set to "FALSE", then objects are plotted in their apparent # color if there is color information (B-U-V magnitudes) available, # otherwise black. # Note that each catalog uses a characteristic color for its # objects regardless this value. Lisa.DrawingMode.Monochrome = "TRUE" # Lisa.Draw.Chart.UserDefinedString # Plots a user defined string. Lisa.Draw.Chart.UserDefinedString = "Integration Test" # Lisa.Draw.Chart.Header # Plot the chart header if this value is "TRUE" Lisa.Draw.Chart.Header = "TRUE" # Lisa.Draw.Catalog.LDN # Draw VII/7A, Lynds' Catalogue of Dark Nebulae (LDN) (Lynds 1962) Lisa.Draw.Catalog.LDN = "FALSE" # Lisa.Draw.Catalog.LBN # Draw VII/9, Lynds' Catalogue of Bright Nebulae (Lynds 1965) Lisa.Draw.Catalog.LBN = "FALSE" # Lisa.Draw.Catalog.HyperLeda # Draw HyperLeda Catalogue (prugniel@obs.univ-lyon1.fr) Lisa.Draw.Catalog.HyperLeda = "TRUE" # Lisa.Draw.Catalog.HyperLeda.Objects # The HyperLeda objects to be plotted: # G Galaxy # S Star # M Multiple galaxy (pair, triple,...) # c Star cluster (Galactic or extra-galactic) # g Extragalactic object of unidentified nature (Radiosource) # h HII region # n Nebula # p Planetary nebula # r Supernova remnant # u Source of unidentified nature, maybe a galaxy # ! Source not found after visual search in sky surveys, artifact # ? Doubtful identification # * All objects Lisa.Draw.Catalog.HyperLeda.Objects = "GMcghnpru" # Lisa.Draw.Catalog.USNOA20 # Draw the USNO-A V2.0 Catalog (USNOFS and USRA) Lisa.Draw.Catalog.USNOA20 = "TRUE" # Lisa.Draw.Catalog.USNOA20 # The brightest magnitude for objects to be plotted from the # USNO-A 2.0 catalog. This value can be used to mask brighter stars, # as their magnitudes are often quite suspicious. Lisa.Draw.Catalog.USNOA20.MagMax = 5.0 # Lisa.Draw.Catalog.Tycho2 # Draw I/259, The Tycho-2 Catalogue (Hog+ 2000) Lisa.Draw.Catalog.Tycho2 = "TRUE" # Lisa.Draw.Catalog.SKY2000 # Draw V/109, SKY2000 Catalog, Version 4 (Myers+ 2002) Lisa.Draw.Catalog.SKY2000 = "TRUE" # Lisa.Draw.Catalog.TDSC # Draw I/276, Tycho Double Star Catalogue (Fabricius+ 2002) Lisa.Draw.Catalog.TDSC = "TRUE" # Lisa.Draw.Catalog.GCVS # Draw II/214A, Combined General Catalogue of Variable Stars (Kholopov+ 1998) Lisa.Draw.Catalog.GCVS = "TRUE" # Lisa.Draw.Catalog.NGC # Draw Wolfgang Steinicke's Revised New General Catalogue and Index Catalogue Lisa.Draw.Catalog.NGC = "FALSE" # Lisa.Draw.Catalog.CGPN_V84 # Draw V/84, Strasbourg-ESO Catalogue of Galactic Planetary Nebulae (Acker+, 1992) Lisa.Draw.Catalog.CGPN_V84 = "TRUE" # Lisa.Draw.Catalog.CGPN_IV24 # Draw IV/24, Catalogue of Galactic Planetary Nebulae (Kohoutek, 2001) Lisa.Draw.Catalog.CGPN_IV24 = "TRUE" # Lisa.Draw.Catalog.OVOC # Draw VII/229, Optically visible open clusters catalog (Dias+, 2002) Lisa.Draw.Catalog.OVOC = "TRUE" # Lisa.Draw.Catalog.Constellations # Draw VI/49, Constellation Boundary Data (Davenhall+ 1989) Lisa.Draw.Catalog.Constellations = "TRUE" # Lisa.Draw.Catalog.Astorb # Draw Lowell University Asteroid Orbital Elements Database Lisa.Draw.Catalog.Astorb = "FALSE"