The Secondary Bulbs Symmetry

Every ( ^m₁ / n₁ ) primary bulb has decoration very similar to the main bulb one (in "square" parametrisation). So for the secondary bulbs we have simply to add one more ^m₂ / n₂ rotation number ( ^m₁ / n₁ ^m₂ / n₂ ). Note that period of a secondary bulb is n₁ × n₂ product. In this way we can map all the M-set decorations.

You can determine n₂ by the number of spokes in the largest antenna attached to a secondary decoration and the shortest spoke is located m₂ = 1 revolutions in the counter-clockwise direction from the main spoke in the square limited region! But you see three spokes branching point nearby.

For ( ¹/₃ ¹/₄ ) secondary bulb we have period 3 × 4 = 12 orbit (the left image). But after factorisation (if we connect only 1, 4, 8 and 12 points) we get f^o3: z₁ → z₄ → z₈ → z₁₂ → z₁ second order star (small 4-polygon on the right image).

At last, the J_c-set contains infinitely many "junction points" at which 4 distinct black regions in J are attached. And the smallest black region is located m₁ = 1 revolutions in the counter-clockwise direction from the largest central region. Again in the square limited region.

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updated 8 Sep 2013