Unknotting number

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Short description: Minimum number of times a specific knot must be passed through itself to become untied
Trefoil knot without 3-fold symmetry being unknotted by one crossing switch.
Whitehead link being unknotted by undoing one crossing

In the mathematical area of knot theory, the unknotting number of a knot is the minimum number of times the knot must be passed through itself (crossing switch) to untie it. If a knot has unknotting number [math]\displaystyle{ n }[/math], then there exists a diagram of the knot which can be changed to unknot by switching [math]\displaystyle{ n }[/math] crossings.[1] The unknotting number of a knot is always less than half of its crossing number.[2] This invariant was first defined by Hilmar Wendt in 1936.[3]

Any composite knot has unknotting number at least two, and therefore every knot with unknotting number one is a prime knot. The following table show the unknotting numbers for the first few knots:

  • Trefoil knot
    unknotting number 1

  • Figure-eight knot
    unknotting number 1

  • Cinquefoil knot
    unknotting number 2

  • Three-twist knot
    unknotting number 1

  • Stevedore knot
    unknotting number 1

  • 6₂ knot
    unknotting number 1

  • 6₃ knot
    unknotting number 1

  • 7₁ knot
    unknotting number 3

In general, it is relatively difficult to determine the unknotting number of a given knot. Known cases include:

  • The unknotting number of a nontrivial twist knot is always equal to one.
  • The unknotting number of a [math]\displaystyle{ (p,q) }[/math]-torus knot is equal to [math]\displaystyle{ (p-1)(q-1)/2 }[/math].[4]
  • The unknotting numbers of prime knots with nine or fewer crossings have all been determined.[5] (The unknotting number of the 1011 prime knot is unknown.)

Other numerical knot invariants

See also

References

  1. Adams, Colin Conrad (2004). The knot book: an elementary introduction to the mathematical theory of knots. Providence, Rhode Island: American Mathematical Society. pp. 56. ISBN 0-8218-3678-1. 
  2. Taniyama, Kouki (2009), "Unknotting numbers of diagrams of a given nontrivial knot are unbounded", Journal of Knot Theory and its Ramifications 18 (8): 1049–1063, doi:10.1142/S0218216509007361 .
  3. Wendt, Hilmar (December 1937). "Die gordische Auflösung von Knoten". Mathematische Zeitschrift 42 (1): 680–696. doi:10.1007/BF01160103. 
  4. "Torus Knot", Mathworld.Wolfram.com. "[math]\displaystyle{ \frac{1}{2}(p-1)(q-1) }[/math]".
  5. Weisstein, Eric W.. "Unknotting Number". http://mathworld.wolfram.com/UnknottingNumber.html. 

External links



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