Maximal Thurston-Bennequin number: Difference between revisions

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For example, the rectilinear front diagram in the figure, which is a right-handed trefoil, has <math>w=3</math>, <math>c=2</math>, and <math>tb=1</math>. In fact, the maximal Thurston-Bennequin number of the right-handed trefoil is <math>1</math>.
For example, the rectilinear front diagram in the figure, which is a right-handed trefoil, has <math>w=3</math>, <math>c=2</math>, and <math>tb=1</math>. In fact, the maximal Thurston-Bennequin number of the right-handed trefoil is <math>1</math>.


In the Knot Atlas, maximal Thurston-Bennequin number is given as <math>[a][b]</math>, where <math>a</math> and <math>b</math> are the maximal Thurston-Bennequin numbers of the knot and its mirror, respectively.
In the Knot Atlas, maximal Thurston-Bennequin number is given as <math>[a][b]</math>, where <math>a</math> and <math>b</math> are the maximal Thurston-Bennequin numbers of the knot and its mirror, respectively. The data has been imported from the KnotInfo site (see [http://www.indiana.edu/~knotinfo/descriptions/thurston_bennequin_number.html their page on the Thurston-Bennequin number]).


{{note|Bennequin}} D. Bennequin, ''Entrelacements et &eacute;quations de Pfaff'', Ast&eacute;risque '''107-108''' (1983) 87-161.
{{note|Bennequin}} D. Bennequin, ''Entrelacements et &eacute;quations de Pfaff'', Ast&eacute;risque '''107-108''' (1983) 87-161.

Revision as of 18:38, 22 March 2007


The Thurston-Bennequin number, usually denoted , is an invariant of nullhomologous Legendrian knots in contact manifolds, and in particular Legendrian knots in with the standard contact structure. It is a classical result of [Bennequin] that is bounded above for Legendrian knots in any given topological knot type in . The maximal Thurston-Bennequin number of a smooth knot is the largest value of among all Legendrian representatives of the knot.

Here is a quick combinatorial definition of maximal Thurston-Bennequin number. Define a rectilinear front diagram to be a knot diagram composed of only horizontal and vertical line segments, such that at any crossing, the horizontal segment lies over the vertical segment. To any rectilinear front diagram , one can associate two integers: the writhe , defined as for any diagram by counting the number of crossings with signs ( for Failed to parse (unknown function "\overcrossing"): {\displaystyle (\overcrossing)} and for Failed to parse (unknown function "\undercrossing"): {\displaystyle (\undercrossing)} ), and the cusp number , defined to be the number of locally upper-right corners of . Next define the Thurston-Bennequin number to be . Finally, the maximal Thurston-Bennequin number of a knot is the maximal value of over all rectilinear front diagrams in the knot type.

RHtrefoil-rectilinear.gif

For example, the rectilinear front diagram in the figure, which is a right-handed trefoil, has , , and . In fact, the maximal Thurston-Bennequin number of the right-handed trefoil is .

In the Knot Atlas, maximal Thurston-Bennequin number is given as , where and are the maximal Thurston-Bennequin numbers of the knot and its mirror, respectively. The data has been imported from the KnotInfo site (see their page on the Thurston-Bennequin number).

[Bennequin] ^  D. Bennequin, Entrelacements et équations de Pfaff, Astérisque 107-108 (1983) 87-161.