5 research outputs found
On sizes of complete arcs in PG(2,q)
New upper bounds on the smallest size t_{2}(2,q) of a complete arc in the
projective plane PG(2,q) are obtained for 853 <= q <= 4561 and q\in T1\cup T2
where T1={173,181,193,229,243,257,271,277,293,343,373,409,443,449,457,
461,463,467,479,487,491,499,529,563,569,571,577,587,593,599,601,607,613,617,619,631,
641,661,673,677,683,691, 709},
T2={4597,4703,4723,4733,4789,4799,4813,4831,5003,5347,5641,5843,6011,8192}.
From these new bounds it follows that for q <= 2593 and q=2693,2753, the
relation t_{2}(2,q) < 4.5\sqrt{q} holds. Also, for q <= 4561 we have t_{2}(2,q)
< 4.75\sqrt{q}. It is showed that for 23 <= q <= 4561 and q\in T2\cup
{2^{14},2^{15},2^{18}}, the inequality t_{2}(2,q) < \sqrt{q}ln^{0.75}q is true.
Moreover, the results obtained allow us to conjecture that this estimate holds
for all q >= 23. The new upper bounds are obtained by finding new small
complete arcs with the help of a computer search using randomized greedy
algorithms. Also new constructions of complete arcs are proposed. These
constructions form families of k-arcs in PG(2,q) containing arcs of all sizes k
in a region k_{min} <= k <= k_{max} where k_{min} is of order q/3 or q/4 while
k_{max} has order q/2. The completeness of the arcs obtained by the new
constructions is proved for q <= 1367 and 2003 <= q <= 2063. There is reason to
suppose that the arcs are complete for all q > 1367. New sizes of complete arcs
in PG(2,q) are presented for 169 <= q <= 349 and q=1013,2003.Comment: 27 pages, 4 figures, 5 table