Acronym ... Name x3x3β5o (?) Circumradius ...

No uniform realisation is possible.

Incidence matrix according to Dynkin symbol

```x3x3β5o

both( . . . . ) | 7200 |    1    1    2    2 |    1    2    1    2    2    2 |   2   1   1    2
----------------+------+---------------------+-------------------------------+-----------------
both( x . . . ) |    2 | 3600    *    *    * |    1    0    0    2    2    0 |   2   1   0    2
both( . x . . ) |    2 |    * 3600    *    * |    1    2    0    0    0    0 |   2   0   1    0
sefa( . x3β . ) |    2 |    *    * 7200    * |    0    1    0    1    0    1 |   1   0   1    1
sefa( . . β5o ) |    2 |    *    *    * 7200 |    0    0    1    0    1    1 |   0   1   1    1
----------------+------+---------------------+-------------------------------+-----------------
both( x3x . . ) |    6 |    3    3    0    0 | 1200    *    *    *    *    * |   2   0   0    0
. x3β .   ♦    6 |    0    3    3    0 |    * 2400    *    *    *    * |   1   0   1    0
. . β5o   ♦    5 |    0    0    0    5 |    *    * 1440    *    *    * |   0   1   1    0
sefa( x3x3β . ) |    6 |    3    0    3    0 |    *    *    * 2400    *    * |   1   0   0    1
sefa( x 2 β5o ) |    4 |    2    0    0    2 |    *    *    *    * 3600    * |   0   1   0    1
sefa( . x3β5o ) |    4 |    0    0    2    2 |    *    *    *    *    * 3600 |   0   0   1    1
----------------+------+---------------------+-------------------------------+-----------------
x3x3β .   ♦   24 |   12   12   12    0 |    4    4    0    4    0    0 | 600   *   *    *
x 2 β5o   ♦   10 |    5    0    0   10 |    0    0    2    0    5    0 |   * 720   *    *
. x3β5o   ♦   60 |    0   30   60   60 |    0   20   12    0    0   30 |   *   * 120    *
sefa( x3x3β5o ) ♦   12 |    6    0    6    6 |    0    0    0    2    3    3 |   *   *   * 1200

starting figure: x3x3x5o
```

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