Difference between revisions of "Turán number"
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| + | A collection $\mathcal{B}$ of subsets of size $r$ ( "blocks" ) of a ground set $\mathcal{X}$ of size $n$ is said to form a Turán $( n , k , r )$-system if each $k$-element subset of $\mathcal{X}$ contains at least one block. The Turán number $T ( n , k , r )$ is the minimum size of such a collection. P. Turán introduced these numbers in [[#References|[a6]]]. The related dual notion is that of the covering number $C ( n , k , r )$, defined to be the smallest number of blocks needed to cover (by inclusion) each $k$-element subset. Several recursions are known; e.g. in [[#References|[a2]]] it is shown that | ||
| + | |||
| + | \begin{equation*} T ( n , k , r ) \geq \lceil \frac { n } { n - r } T ( n - 1 , k , r ) \rceil. \end{equation*} | ||
Also, the limit | Also, the limit | ||
| − | + | \begin{equation*} t ( k , r ) = \operatorname { lim } _ { n \rightarrow \infty } \frac { T ( n , k , r ) } { \left( \begin{array} { l } { n } \\ { r } \end{array} \right) } \end{equation*} | |
| − | is known to exist, though the values of | + | is known to exist, though the values of $t ( k , r )$ are known only for $r = 2$. These facts and the ones that follow are based on an extensive survey by A. Sidorenko ([[#References|[a5]]]): |
| − | i) | + | i) $t ( k , r ) \leq t ( k - 1 , r - 1 )$. |
| − | ii) | + | ii) $T ( n , k , r ) \geq \frac { n - k + 1 } { n - r + 1 } \left( \begin{array} { c } { n } \\ { r } \end{array} \right) / \left( \begin{array} { c } { k - 1 } \\ { r - 1 } \end{array} \right)$ [[#References|[a1]]]. |
| − | iii) It has been conjectured that | + | iii) It has been conjectured that $\operatorname { lim } _ { r \rightarrow \infty } r \cdot t ( r + 1 , r ) = \infty$ [[#References|[a1]]]. |
| − | iv) | + | iv) $t ( r + 1 , r ) \leq \frac { \operatorname { ln } r } { 2 r } ( 1 + o( 1 ) )$ [[#References|[a4]]]. |
| − | v) | + | v) $t ( k , r ) \leq \left( \frac { r - 1 } { k - 1 } \right) ^ { r - 1 }$ [[#References|[a3]]]. The situation of small $n/ ( k - 1 )$ has been studied extensively, as have been the cases $r = 2,3,4$. The case of small $n - k$ is also well-studied; this leads to the covering number. See [[#References|[a5]]] for details. |
====References==== | ====References==== | ||
| − | <table>< | + | <table><tr><td valign="top">[a1]</td> <td valign="top"> D. de Caen, "Extension of a theorem of Moon and Moser on complete subgraphs" ''Ars Combinatoria'' , '''16''' (1983) pp. 5–10</td></tr><tr><td valign="top">[a2]</td> <td valign="top"> G. Katona, T. Nemetz, M. Simonovits, "On a graph problem of Turán" ''Mat. Lapok'' , '''15''' (1964) pp. 228–238</td></tr><tr><td valign="top">[a3]</td> <td valign="top"> A. Sidorenko, "Systems of sets that have the $T$-property" ''Moscow Univ. Math. Bull.'' , '''36''' (1981) pp. 22–26</td></tr><tr><td valign="top">[a4]</td> <td valign="top"> A. Sidorenko, "Upper bounds on Turán numbers" ''J. Combin. Th. A'' , '''77''' : 1 (1997) pp. 134–147</td></tr><tr><td valign="top">[a5]</td> <td valign="top"> A. Sidorenko, "What we know and what we do not know about Turán numbers" ''Graphs Combin.'' , '''11''' (1995) pp. 179–199</td></tr><tr><td valign="top">[a6]</td> <td valign="top"> P. Turán, "Research Problems" ''Magyar Tud. Akad. Mat. Kutato Internat. Közl.'' , '''6''' (1961) pp. 417–423</td></tr></table> |
Latest revision as of 16:57, 1 July 2020
A collection $\mathcal{B}$ of subsets of size $r$ ( "blocks" ) of a ground set $\mathcal{X}$ of size $n$ is said to form a Turán $( n , k , r )$-system if each $k$-element subset of $\mathcal{X}$ contains at least one block. The Turán number $T ( n , k , r )$ is the minimum size of such a collection. P. Turán introduced these numbers in [a6]. The related dual notion is that of the covering number $C ( n , k , r )$, defined to be the smallest number of blocks needed to cover (by inclusion) each $k$-element subset. Several recursions are known; e.g. in [a2] it is shown that
\begin{equation*} T ( n , k , r ) \geq \lceil \frac { n } { n - r } T ( n - 1 , k , r ) \rceil. \end{equation*}
Also, the limit
\begin{equation*} t ( k , r ) = \operatorname { lim } _ { n \rightarrow \infty } \frac { T ( n , k , r ) } { \left( \begin{array} { l } { n } \\ { r } \end{array} \right) } \end{equation*}
is known to exist, though the values of $t ( k , r )$ are known only for $r = 2$. These facts and the ones that follow are based on an extensive survey by A. Sidorenko ([a5]):
i) $t ( k , r ) \leq t ( k - 1 , r - 1 )$.
ii) $T ( n , k , r ) \geq \frac { n - k + 1 } { n - r + 1 } \left( \begin{array} { c } { n } \\ { r } \end{array} \right) / \left( \begin{array} { c } { k - 1 } \\ { r - 1 } \end{array} \right)$ [a1].
iii) It has been conjectured that $\operatorname { lim } _ { r \rightarrow \infty } r \cdot t ( r + 1 , r ) = \infty$ [a1].
iv) $t ( r + 1 , r ) \leq \frac { \operatorname { ln } r } { 2 r } ( 1 + o( 1 ) )$ [a4].
v) $t ( k , r ) \leq \left( \frac { r - 1 } { k - 1 } \right) ^ { r - 1 }$ [a3]. The situation of small $n/ ( k - 1 )$ has been studied extensively, as have been the cases $r = 2,3,4$. The case of small $n - k$ is also well-studied; this leads to the covering number. See [a5] for details.
References
| [a1] | D. de Caen, "Extension of a theorem of Moon and Moser on complete subgraphs" Ars Combinatoria , 16 (1983) pp. 5–10 |
| [a2] | G. Katona, T. Nemetz, M. Simonovits, "On a graph problem of Turán" Mat. Lapok , 15 (1964) pp. 228–238 |
| [a3] | A. Sidorenko, "Systems of sets that have the $T$-property" Moscow Univ. Math. Bull. , 36 (1981) pp. 22–26 |
| [a4] | A. Sidorenko, "Upper bounds on Turán numbers" J. Combin. Th. A , 77 : 1 (1997) pp. 134–147 |
| [a5] | A. Sidorenko, "What we know and what we do not know about Turán numbers" Graphs Combin. , 11 (1995) pp. 179–199 |
| [a6] | P. Turán, "Research Problems" Magyar Tud. Akad. Mat. Kutato Internat. Közl. , 6 (1961) pp. 417–423 |
How to Cite This Entry:
Turán number. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Tur%C3%A1n_number&oldid=50207
Turán number. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Tur%C3%A1n_number&oldid=50207
This article was adapted from an original article by A.P. Godbole (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article