Minimum lattice length and ropelength of knots

Kyungpyo Hong; Hyoungjun Kim; Seungsang Oh; Sungjong No

doi:10.1142/S0218216514600098

Minimum lattice length and ropelength of knots

Kyungpyo Hong
, Hyoungjun Kim
, Seungsang Oh
, Sungjong No

Department of Mathematics Education

Korea University
Ewha Womans University

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

Let Len(K) be the minimum length of a knot on the cubic lattice (namely the minimum length necessary to construct the knot in the cubic lattice). This paper provides upper bounds for Len(K) of a nontrivial knot K in terms of its crossing number c(K) as follows: Len(K) ≤ min {3/4c(K)² + 5c(K) + 17/4, 5/8c(K)² + 15/2c(K) + 71/8}. The ropelength of a knot is the quotient of its length by its thickness, the radius of the largest embedded normal tube around the knot. We also provide upper bounds for the minimum ropelength Rop(K) which is close to twice Len(K): Rop(K) ≤ min {1.5c(K)² + 9.15c(K) + 6.79, 1.25c(K)² + 14.58c(K) + 16.90}.

Original language	English
Article number	1460009
Journal	Journal of Knot Theory and its Ramifications
Volume	23
Issue number	7
DOIs	https://doi.org/10.1142/S0218216514600098
State	Published - 25 Jun 2014

Keywords

Knot
lattice knot
ropelength
upper bound

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10.1142/S0218216514600098

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title = "Minimum lattice length and ropelength of knots",

abstract = "Let Len(K) be the minimum length of a knot on the cubic lattice (namely the minimum length necessary to construct the knot in the cubic lattice). This paper provides upper bounds for Len(K) of a nontrivial knot K in terms of its crossing number c(K) as follows: Len(K) ≤ min \{3/4c(K)2 + 5c(K) + 17/4, 5/8c(K)2 + 15/2c(K) + 71/8\}. The ropelength of a knot is the quotient of its length by its thickness, the radius of the largest embedded normal tube around the knot. We also provide upper bounds for the minimum ropelength Rop(K) which is close to twice Len(K): Rop(K) ≤ min \{1.5c(K)2 + 9.15c(K) + 6.79, 1.25c(K)2 + 14.58c(K) + 16.90\}.",

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T1 - Minimum lattice length and ropelength of knots

AU - Hong, Kyungpyo

AU - Kim, Hyoungjun

AU - Oh, Seungsang

AU - No, Sungjong

PY - 2014/6/25

Y1 - 2014/6/25

N2 - Let Len(K) be the minimum length of a knot on the cubic lattice (namely the minimum length necessary to construct the knot in the cubic lattice). This paper provides upper bounds for Len(K) of a nontrivial knot K in terms of its crossing number c(K) as follows: Len(K) ≤ min {3/4c(K)2 + 5c(K) + 17/4, 5/8c(K)2 + 15/2c(K) + 71/8}. The ropelength of a knot is the quotient of its length by its thickness, the radius of the largest embedded normal tube around the knot. We also provide upper bounds for the minimum ropelength Rop(K) which is close to twice Len(K): Rop(K) ≤ min {1.5c(K)2 + 9.15c(K) + 6.79, 1.25c(K)2 + 14.58c(K) + 16.90}.

AB - Let Len(K) be the minimum length of a knot on the cubic lattice (namely the minimum length necessary to construct the knot in the cubic lattice). This paper provides upper bounds for Len(K) of a nontrivial knot K in terms of its crossing number c(K) as follows: Len(K) ≤ min {3/4c(K)2 + 5c(K) + 17/4, 5/8c(K)2 + 15/2c(K) + 71/8}. The ropelength of a knot is the quotient of its length by its thickness, the radius of the largest embedded normal tube around the knot. We also provide upper bounds for the minimum ropelength Rop(K) which is close to twice Len(K): Rop(K) ≤ min {1.5c(K)2 + 9.15c(K) + 6.79, 1.25c(K)2 + 14.58c(K) + 16.90}.

KW - Knot

KW - lattice knot

KW - ropelength

KW - upper bound

UR - https://www.scopus.com/pages/publications/84928361266

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DO - 10.1142/S0218216514600098

M3 - Article

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SN - 0218-2165

VL - 23

JO - Journal of Knot Theory and its Ramifications

JF - Journal of Knot Theory and its Ramifications

IS - 7

M1 - 1460009

ER -

Minimum lattice length and ropelength of knots

Abstract

Keywords

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