The Properties and Details of the Bajoran Star System

1. According to Memory Alpha, the Bajoran Sun is host to 14 planets. The Bajoran Homeworld is the 11th planet, and the largest in the system. There exists a plasma field around the orbit of Deep Space Nine, and it holds the unique Bajoran Wormhole.
2.  
3. **The Sun: Bajor System**
4.  
5. Taking the Blue channel value from [this image](https://vignette4.wikia.nocookie.net/memoryalpha/images/9/92/Bajoran_sun.jpg/revision/latest?cb=20100206224811&path-prefix=en) of the Bajoran Sun and comparing it to the thermal color spectrum with this [calculator](https://academo.org/demos/colour-temperature-relationship/) gives us a color that corresponds to 5250, or a G9 type Main Sequence Star.
6.  
7. Its mass is about 0.84 Solar masses and it has a luminosity of 0.6 Solar luminosities. Its habitable zone lies between 0.736 and 1.06 Astronomical Units. There are no planets massive enough to be gas giants, implying a vast system of comets and icy asteroids are retained outside the frost line.
8.  
9. Its planetary system is tightly packed, and many of them are so hot as to be rendered uninhabitable mercury-like objects. These are likely dark grey, heavily cratered objects. The innermost two objects may be partially molten at the surface.
10.  
11. The sun glows fairly evenly. No pictures of it exist showing sunspot activity. This could mean that the Bajoran sun has a very long rotation period and thus a very long solar activity cycle, and during the events of DS9 it has been at solar minimum.
12.  
13. There is one known comet, designated Comet Alpha, which appears to have a semi-major axis of around 0.5 AU and an eccentricity of around 0.4-0.6.
14.  
15. **The Bajoran Wormhole**
16.  
17. The Bajoran Wormhole is a massive spacetime portal between Bajor and deep space on the other side of the galaxy. Within itself is an incredible and mysterious power source which heats up a gas torus that it emits. The Bajoran Wormhole is massive enough to have its own gravity, and bright enough to be visible to Bajor when it is open. DS9 orbits the Bajoran Sun at the Sun-Wormhole L1 point. The wormhole appears to glow unevenly when open, between around 4500 Kelvin and 10,000 Kelvin. (Yellow and blue) At its brightest, it may outshine the Sun when viewed from Bajor. If in fact the Wormhole's glow is not Thermal, but is instead an emission spectrum or some other method of generating yellow and blue light, DS9 may simply orbit the wormhole itself.
18.  
19. The plasma torus, also known as the Denorios Belt, seems to have a significant effect on starships navigating to DS9 according to Memory Alpha. The composition of the torus appears to be Hydrogen, given the purple-pink glow of the belt in [this image](https://vignette1.wikia.nocookie.net/memoryalpha/images/b/b6/Denorios_belt.jpg/revision/latest?cb=20060408224104&path-prefix=en).
20.  
21. The Denorios Belt stretches from 0.62 to 0.7 AU.
22.  
23. **The Planet: Bajor Homeworld and its Satellites**
24.  
25. Bajor is a Terrestrial Minshara-Class planet. It has five moons.
26.  
27. * Derna: 0.158 Bajor Radii, Near the roche limit and very close.
28. * Three unnamed, probably asteroid moons. I suspect the innermost of these is within 4 or 5 Bajor radii distant, and are close together in their orbits to one another.
29. * Jerrado: A moon large enough to have a habitable atmosphere. I'd wager it's about 0.25 Earth masses minimum to hold onto that atmosphere, so I would suspect it must be fairly distant from Bajor.
30.  
31. This is important to finding a good guess at Bajor's characteristics. If Bajor wants to hold onto its four other moons without them being destablized (which would be disastrous in Derna's case) then Jerrado must orbit a fair distance away. However, if Bajor orbited right at 0.77 AU where Earth would to get as much light as it would from the Sun, Bajor's sphere of gravitational influence would be smaller than Earth's. Bajor must therefore be more massive and relatively further away from its sun than Earth. The tectonic and volcanic activity from Derna's extremely close orbit, as well as a higher-than-Earth-level of greenhouse gasses can make up for the loss in temperature that we get by moving it out to 0.93 AU (1.2x the Earth region)
32.  
33. Derna presents another challenge. It looks like Derna orbits one Derna-Diameter from the surface of Bajor. We'll throw this away. We can not accept that in any reasonable planet. Instead, we'll make Bajor less dense than Earth (4.8 g/cm^3 instead of 5.51 g/cm^3.) and we'll make Derna denser. (6.0 g/cm^3)
34.  
35. This puts the Derna-Bajor roche limit at 2.42 * 7679 km * (4.8/6)^(1/3) = 17251.1 km.
36.  
37. Bajoran Homeworld
38.  
39. * Space Engine Class = Temperate Terra with Life
40. * Star Trek Class = M
41. * Radius = 7679 km, 1.205 Earth radii
42. * Density = 4.8 g/cm^3
43. * Gravity = 0.915 Eg
44. * Mass = 1.3286 M-earth
45. * Semi Major Axis = 0.93 AU
46.  
47. Derna
48.  
49. * Space Engine Class = Temperate Selena
50. * Star Trek Class = D
51. * Radius = 1212 km
52. * Density = 6 g/cm^3
53. * Gravity = 0.207 Eg
54. * Mass = 0.0075 M-earth
55. * Semi Major Axis = 21,963 km
56.  
57. Jerrado
58.  
59. * Space Engine Class = Temperate Terra with extinct Life
60. * Star Trek Class = H, formerly M?
61. * Radius = 4778 km
62. * Density = 3.4 g/cm^3
63. * Gravity = 0.4628 Eg
64. * Mass = 0.26 M-earth
65. * Semi Major Axis = 1,521,161,000 km
66.  
67. I'm not completely sure Jerrado is small enough not to interfere with the orbits of the inner four satellites. If needed, Jerrado can be shrunk to 0.1 Earth masses.
68.  
69. **Other Planets in the Bajoran System**
70.  
71. [This LCARS display](https://vignette2.wikia.nocookie.net/memoryalpha/images/2/2f/Bajoran_system.jpg/revision/latest?cb=20130219174527&path-prefix=en) shows the Bajoran system, presumably to scale.
72.  
73. From this we can get some reasonable values for size and mass. Radius is taken from chart relative to Bajor, Density is chosen pseudo-randomly based upon proximity to star. Gravity and Mass are calculated from the former two characteristics using the Earth-relative equation G = M/(R^2) = R*D. Albedo is chosen pseudo-randomly. Semi-Major-Axis (distance from the sun) is measured from the chart. Temperature is based on Albedo and SMA, but I may have made a mistake with it. Most of these planets are throwaway moon-like bodies, perhaps harvestable for minerals at best. The innermost two worlds likely have molten regions. Planets 1-6 or 7 are likely tidally locked to the sun, and might have an ice-coated permanent dark side.
74.  
75. We know that Planet 11 is the habitable Bajor, and that Planet 8 is habitable enough to be colonized. Unfortunately these do not fit within the habitable zone as we know it. I've given the planet a thick cloud cover and thus a higher albedo so it reflects as much light as possible, but its still too darn hot. The other possibility is to retcon Planet 8 so that it is actually either Planet 10 or Planet 12, both of which are in the habitable zone. Realistically Planet 8 should either have a Venus-like or hot Mars-like atmosphere. Possible fixes: Prophet Magic and/or star-shade at Planet8/BajorSun L1 point.
76.  
77. Bajor I
78.  
79. * Space Engine Class = Scorched Selena
80. * Star Trek Class = D
81. * Radius = 1745 km, 0.2272 Bajor
82. * Density = 5.6 g/cm^3
83. * Gravity = 0.278 Eg (Earth Gravity)
84. * Mass = 0.021 M-earth
85. * Semi Major Axis = 0.1142105 AU
86.  
87. Bajor II
88.  
89. * Space Engine Class = Scorched Selena
90. * Star Trek Class = D
91. * Radius = 1745 km, 0.2272 Bajor
92. * Density = 5.6 g/cm^3
93. * Gravity = 0.278 Eg (Earth Gravity)
94. * Mass = 0.021 M-earth
95. * Semi Major Axis = 0.13868 AU
96.  
97. Bajor III
98.  
99. * Space Engine Class = Hot Selena
100. * Star Trek Class = D
101. * Radius = 2443 km, 0.318 Bajor
102. * Density = 5.55 g/cm^3
103. * Gravity = 0.3827 Eg
104. * Mass = 0.0568 M-earth
105. * Semi Major Axis = 0.19579 AU
106.  
107. Bajor IV
108.  
109. * Space Engine Class = Hot Selena
110. * Star Trek Class = D
111. * Radius = 2795 km, 0.364 Bajor
112. * Density = 5.5 g/cm^3
113. * Gravity = 0.438 Eg
114. * Mass = 0.0843 M-earth
115. * Semi Major Axis = 0.2529 AU
116.  
117. Bajor V
118.  
119. * Space Engine Class = Warm Selena
120. * Star Trek Class = D
121. * Radius = 2443 km, 0.318 Bajor
122. * Density = 5.3 g/cm^3
123. * Gravity = 0.369 Eg
124. * Mass = 0.054 M-earth
125. * Semi Major Axis = 0.3108 AU
126.  
127. Bajor VI
128.  
129. * Space Engine Class = Warm Selena
130. * Star Trek Class = D
131. * Radius = 2304 km, 0.3 Bajor
132. * Density = 5.3 g/cm^3
133. * Gravity = 0.348 Eg
134. * Mass = 0.0455 M-earth
135. * Semi Major Axis = 0.3345 AU
136.  
137. Bajor VII
138.  
139. * Space Engine Class = Temperate Selena
140. * Star Trek Class = D
141. * Radius = 2304 km, 0.3 Bajor
142. * Density = 5.3 g/cm^3
143. * Gravity = 0.348 Eg
144. * Mass = 0.0455 M-earth
145. * Semi Major Axis = 0.4813 AU (Note: it's possible that Bajor VII is meant to represent a trojan companion to Bajor VIII, and would actually orbit at the same distance but 60 degrees ahead in its orbit)
146.  
147. Bajor VIII
148.  
149. * Space Engine Class = Temperate Terra Somehow with Life
150. * Star Trek Class = L
151. * Radius = 3840 km, 0.5 Bajor
152. * Density = 4.3 g/cm^3
153. * Gravity = 0.4704 Eg
154. * Mass = 0.1709 M-earth
155. * Semi Major Axis = 0.4936 AU
156.  
157. Bajor IX
158.  
159. * Space Engine Class = Selena
160. * Star Trek Class = D
161. * Radius = 1745 km, 0.227 Bajor
162. * Density = 3.2 g/cm^3
163. * Gravity = 0.159 Eg
164. * Mass = 0.0119 M-earth
165. * Semi Major Axis = 0.5384 AU
166.  
167. The Wormhole and the Denorios Belt.
168.  
169. * Semi Major Axis = 0.571 AU
170.  
171. Bajor X
172.  
173. * Space Engine Class = Desert
174. * Star Trek Class = H
175. * Radius = 3490 km, 0.455 Bajor
176. * Density = 3.4 g/cm^3
177. * Gravity = 0.338 Eg
178. * Mass = 0.1014 M-earth
179. * Semi Major Axis = 0.734 AU
180.  
181. Bajor XI (BajorWorld)
182.  
183. * Space Engine Class = Temperate Terra with Life
184. * Star Trek Class = M
185. * Radius = 7679 km, 1.205 Earth radii
186. * Density = 4.8 g/cm^3
187. * Gravity = 0.915 Eg
188. * Mass = 1.3286 M-earth
189. * Semi Major Axis = 0.93 AU
190.  
191. Bajor XII
192.  
193. * Space Engine Class = Cool Desert
194. * Star Trek Class = H
195. * Radius = 3840 km, 0.5 Bajor
196. * Density = 3.2 g/cm^3
197. * Gravity = 0.35 Eg
198. * Mass = 0.1272 M-Earth
199. * Semi Major Axis = 1.0279 AU
200.  
201. Bajor XIII
202.  
203. * Space Engine Class = Cold Desert
204. * Star Trek Class = K
205. * Radius = 4884 km, 0.636 Bajor
206. * Density = 3.4 g/cm^3
207. * Gravity = 0.473 Eg
208. * Mass = 0.2779 M-Earth
209. * Semi Major Axis = 1.085 AU
210.  
211. Bajor XIV
212.  
213. * Space Engine Class = Cold Ice World
214. * Star Trek Class = D
215. * Radius = 3490 km, 0.455 Bajor
216. * Density = 2.9 g/cm^3
217. * Gravity = 0.288 Eg
218. * Mass = 0.0865 M-Earth
219. * Semi Major Axis = 1.2033 AU
220.  
221. Tomorrow I might mock this system up in Space Engine and update or fix some [missing data](http://memory-alpha.wikia.com/wiki/The_Most_Toys). I might even try a simulation in Universe Sandbox^(2), to check for the system's stability.