In this note, we prove the uniqueness of the one-point extension of a generalized hexagon of order 2 and prove the non-existence of such an extension of any other finite generalized hexagon of classical order, different from the one of order 2, and of the known finite generalized octagons provided the following property holds: for any three points x, y and z of , the graph-theoretic distance from y to z in the derived generalized hexagon is the same as the distance from x to z in
Proofs are given of the facts that any finite generalized hexagon of order (2, t) is isomorphic to t...
One intuitively describes a generalized hexagon as a point-line geometry full of ordinary hexagons, ...
Proofs are given of the facts that any finite generalized hexagon of order (2, t) is isomorphic to t...
In this note, we prove the uniqueness of the one-point extension of a generalized hexagon of order 2...
In this note, we prove the uniqueness of the one-point extension of a generalized hexagon of order 2...
In this note, we prove the uniqueness of the one-point extension of a generalized hexagon of order 2...
In this note, we prove the uniqueness of the one-point extension of a generalized hexagon of order 2...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
AbstractIn this note, we prove the uniqueness of the one-point extension S of a generalized hexagon ...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
Proofs are given of the facts that any finite generalized hexagon of order (2, t) is isomorphic to t...
Proofs are given of the facts that any finite generalized hexagon of order (2, t) is isomorphic to t...
One intuitively describes a generalized hexagon as a point-line geometry full of ordinary hexagons, ...
Proofs are given of the facts that any finite generalized hexagon of order (2, t) is isomorphic to t...
In this note, we prove the uniqueness of the one-point extension of a generalized hexagon of order 2...
In this note, we prove the uniqueness of the one-point extension of a generalized hexagon of order 2...
In this note, we prove the uniqueness of the one-point extension of a generalized hexagon of order 2...
In this note, we prove the uniqueness of the one-point extension of a generalized hexagon of order 2...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
AbstractIn this note, we prove the uniqueness of the one-point extension S of a generalized hexagon ...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
In this note, we prove the uniqueness of the one-point extension S of a generalized hexagon of order...
Proofs are given of the facts that any finite generalized hexagon of order (2, t) is isomorphic to t...
Proofs are given of the facts that any finite generalized hexagon of order (2, t) is isomorphic to t...
One intuitively describes a generalized hexagon as a point-line geometry full of ordinary hexagons, ...
Proofs are given of the facts that any finite generalized hexagon of order (2, t) is isomorphic to t...