Acronym ...
Name x3x3β4o (?)
Circumradius ...

No uniform realisation is possible.


Incidence matrix according to Dynkin symbol

x3x3β4o

both( . . . . ) | 192 |  1  1  1   2 |  1  2  1  2  2 |  2 1  2
----------------+-----+--------------+----------------+--------
both( x . . . ) |   2 | 96  *  *   * |  1  0  1  2  0 |  2 0  2
both( . x . . ) |   2 |  * 96  *   * |  1  2  0  0  0 |  2 1  0
both( . . s4o ) |   2 |  *  * 96   * |  0  0  1  0  2 |  0 1  2
sefa( . x3β . ) |   2 |  9  9  9 192 |  0  1  0  1  1 |  1 1  1
----------------+-----+--------------+----------------+--------
both( x3x . . ) |   6 |  3  3  0   0 | 32  *  *  *  * |  2 0  0
      . x3β .      6 |  0  3  0   3 |  * 64  *  *  * |  1 1  0
both( x 2 s4o ) |   4 |  2  0  2   0 |  *  * 48  *  * |  0 0  2
sefa( x3x3β . ) |   6 |  3  0  0   3 |  *  *  * 64  * |  1 0  1
sefa( . x3β4o ) |   4 |  0  0  2   2 |  *  *  *  * 96 |  0 1  1
----------------+-----+--------------+----------------+--------
      x3x3β .     24 | 12 12  0  12 |  4  4  0  4  0 | 16 *  *
      . x3β4o     24 |  0 12 12  24 |  0  8  0  0 12 |  * 8  *
sefa( x3x3β4o )   12 |  6  0  6   6 |  0  0  3  2  3 |  * * 32

starting figure: x3x3x4o

β3x3β *b3x

both( . . .    . ) | 192 |  1  1  1  1  1 |  1  1  1  1  2  1  1 | 1 1 1  2
-------------------+-----+----------------+----------------------+---------
both( . x .    . ) |   2 | 96  *  *  *  * |  1  1  1  0  0  0  0 | 1 1 1  0
both( . . .    x ) |   2 |  * 96  *  *  * |  1  0  0  1  0  1  1 | 0 1 1  2
both( s 2 s    . ) |   2 |  *  * 96  *  * |  0  0  0  1  2  0  0 | 1 0 0  2
sefa( β3x .    . ) |   2 |  *  *  * 96  * |  0  1  0  0  1  1  0 | 1 1 0  1
sefa( . x3β    . ) |   2 |  *  *  *  * 96 |  0  0  1  0  1  0  1 | 1 0 1  1
-------------------+-----+----------------+----------------------+---------
both( . x . *b3x ) |   6 |  3  3  0  0  0 | 32  *  *  *  *  *  * | 0 1 1  0
      β3x .    .      6 |  3  0  0  3  0 |  * 32  *  *  *  *  * | 1 1 0  0
      . x3β    .      6 |  3  0  0  0  3 |  *  * 32  *  *  *  * | 1 0 1  0
both( s 2 s    x ) |   4 |  0  2  2  0  0 |  *  *  * 48  *  *  * | 0 0 0  2
sefa( β3x3β    . ) |   4 |  0  0  2  1  1 |  *  *  *  * 96  *  * | 1 0 0  1
sefa( β3x . *b3x ) |   6 |  0  3  0  3  0 |  *  *  *  *  * 32  * | 0 1 0  1
sefa( . x3β *b3x ) |   6 |  0  3  0  0  3 |  *  *  *  *  *  * 32 | 0 0 1  1
-------------------+-----+----------------+----------------------+---------
      β3x3β    .     24 | 12  0 12 12 12 |  0  4  4  0 12  0  0 | 8 * *  *
      β3x . *b3x     24 | 12 12  0 12  0 |  4  4  0  0  0  4  0 | * 8 *  *
      . x3β *b3x     24 | 12 12  0  0 12 |  4  0  4  0  0  0  4 | * * 8  *
sefa( β3x3β *b3x )   12 |  0  6  6  3  3 |  0  0  0  3  3  1  1 | * * * 32

starting figure: x3x3x *b3x

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