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Bouchet conjectured in 1983 that every flow-admissible signed graph admits a nowhere-zero 6-flow which is equivalent to the restriction to cubic signed graphs. In this paper, we proved that every flow-admissible $3$-edge-colorable cubic…

Combinatorics · Mathematics 2022-11-04 Liangchen Li , Chong Li , Rong Luo , C. -Q Zhang , Hailing Zhang

In 1983, A. Bouchet extended W.T. Tutte's notion of nowhere-zero flows to signed graphs, and conjectured that every flow-admissible signed graph has a nowhere-zero 6-flow. In this paper we prove that every flow-admissible signed graph that…

Combinatorics · Mathematics 2025-12-23 Matt DeVos , Kathryn Nurse , Robert Šámal

In 1983, Bouchet conjectured that every flow-admissible signed graph admits a nowhere-zero 6-flow. We verify this conjecture for the class of flow-admissible signed graphs possessing a spanning even Eulerian subgraph, which includes as a…

Combinatorics · Mathematics 2025-10-10 Chao Wen , Qiang Sun , Chao Zhang

In 1983, Bouchet proposed a conjecture that every flow-admissible signed graph admits a nowhere-zero $6$-flow. Bouchet himself proved that such signed graphs admit nowhere-zero $216$-flows and Zyka further proved that such signed graphs…

Combinatorics · Mathematics 2019-08-30 Matt DeVos , Jiaao Li , You Lu , Rong Luo , Cun-Quan Zhang , Zhang Zhang

This paper is devoted to a detailed study of nowhere-zero flows on signed eulerian graphs. We generalise the well-known fact about the existence of nowhere-zero $2$-flows in eulerian graphs by proving that every signed eulerian graph that…

Combinatorics · Mathematics 2016-07-04 Edita Máčajová , Martin Škoviera

Bouchet conjectured in 1983 that each signed graph that admits a nowhere-zero flow has a nowhere-zero 6-flow. We prove that the conjecture is true for all signed series-parallel graphs. Unlike the unsigned case, the restriction to…

Combinatorics · Mathematics 2014-11-10 Tomáš Kaiser , Edita Rollová

A signed graph is a graph with a positive or negative sign on each edge. Regarding each edge as two half edges, an orientation of a signed graph is an assignment of a direction to each of its half edges such that the two half edges of a…

Combinatorics · Mathematics 2016-04-13 Fan Yang , Sanming Zhou

In 1983, Bouchet proved that every bidirected graph with a nowhere-zero integer-flow has a nowhere-zero 216-flow, and conjectured that 216 could be replaced with 6. This paper shows that for cyclically 5-edge-connected bidirected graphs…

Combinatorics · Mathematics 2023-09-06 Matt DeVos , Kathryn Nurse , Robert Sámal

Many basic properties in Tutte's flow theory for unsigned graphs do not have their counterparts for signed graphs. However, signed graphs without long barbells in many ways behave like unsigned graphs from the point view of flows. In this…

Combinatorics · Mathematics 2019-09-02 You Lu , Rong Luo , Michael Schubert , Eckhard Steffen , Cun-Quan Zhang

Tutte's 3-flow conjecture asserts that every 4-edge-connected graph has a nowhere-zero 3-flow. In this note we prove that every regular graph of valency at least four admitting a solvable arc-transitive group of automorphisms admits a…

Combinatorics · Mathematics 2014-05-27 Xiangwen Li , Sanming Zhou

Two well-known results in the world of nowhere-zero flows are Jaeger's 4-flow theorem asserting that every 4-edge-connected graph has a nowhere-zero $\mathbb{Z}_2 \times \mathbb{Z}_2$-flow and Seymour's 6-flow theorem asserting that every…

Combinatorics · Mathematics 2020-05-21 Matt DeVos , Rikke Langhede , Bojan Mohar , Robert Šámal

A 1983 conjecture of Bouchet states that every flow-admissible signed graph has a nowhere-zero six-flow. We prove this conjecture for cyclically five-edge-connected, cubic signed graphs.

Combinatorics · Mathematics 2026-01-12 Kathryn Nurse

In 1983, Bouchet conjectured that every flow-admissible signed graph admits a nowhere-zero $6$-flow. In this paper, we prove that Bouchet's conjecture holds for all signed ladders, circular and M\"obius ladders. In fact, all signed ladders,…

Combinatorics · Mathematics 2025-10-03 Leila Parsaei-Majd

The presented paper studies the flow number $F(G,\sigma)$ of flow-admissible signed graphs $(G,\sigma)$ with two negative edges. We restrict our study to cubic graphs, because for each non-cubic signed graph $(G,\sigma)$ there is a set…

Combinatorics · Mathematics 2016-04-28 Edita Rollová , Michael Schubert , Eckhard Steffen

Lov\'{a}sz et al. proved that every $6$-edge-connected graph has a nowhere-zero $3$-flow. In fact, they proved a more technical statement which says that there exists a nowhere zero $3$-flow that extends the flow prescribed on the incident…

Tutte's 5-Flow Conjecture from 1954 states that every bridgeless graph has a nowhere-zero 5-flow. In 2004, Kochol proved that the conjecture is equivalent to its restriction on cyclically 6-edge connected cubic graphs. We prove that every…

Combinatorics · Mathematics 2014-12-18 Giuseppe Mazzuoccolo , Eckhard Steffen

We prove that every regular graph of valency at least four whose automorphism group contains a nilpotent subgroup acting transitively on the vertex set admits a nowhere-zero 3-flow.

Combinatorics · Mathematics 2022-03-28 Junyang Zhang , Sanming Zhou

There are many major open problems in integer flow theory, such as Tutte's 3-flow conjecture that every 4-edge-connected graph admits a nowhere-zero 3-flow, Jaeger et al.'s conjecture that every 5-edge-connected graph is $Z_3$-connected and…

Combinatorics · Mathematics 2015-07-13 Fuyuan Chen , Bo Ning

Tutte's famous 5-flow conjecture asserts that every bridgeless graph has a nowhere-zero 5-flow. Seymour proved that every such graph has a nowhere-zero 6-flow. Here we give (two versions of) a new proof of Seymour's Theorem. Both are…

Combinatorics · Mathematics 2015-12-22 Matt DeVos , Edita Rollová , Robert Šámal

A set $R\subseteq E(G)$ of a graph $G$ is $k$-removable if $G-R$ has a nowhere-zero $k$-flow. We prove that every graph $G$ admitting a nowhere-zero $4$-flow has a $3$-removable subset consisting of at most $\frac{1}{6}|E(G)|$ edges. This…

Combinatorics · Mathematics 2025-11-04 Davide Mattiolo
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