Abstract
We derive a sufficient condition for a sparse graph G on n vertices to contain a copy of a tree T of maximum degree at most d on (1 − ε)n vertices, in terms of the expansion properties of G. As a result we show that for fixed d ≥ 2 and 0 < ε < 1, there exists a constant c = c(d, ε) such that a random graph G(n, c/n) contains almost surely a copy of every tree T on (1 − ε)n vertices with maximum degree at most d. We also prove that if an (n, D, λ)-graph G (i.e., a D-regular graph on n vertices all of whose eigenvalues, except the first one, are at most λ in their absolute values) has large enough spectral gap D/λ as a function of d and ε, then G has a copy of every tree T as above.
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References
M. Ajtai, J. Komlós and E. Szemerédi: The longest path in a random graph, Combinatorica 1(1) (1981), 1–12.
N. Alon, M. Capalbo, Y. Kohayakawa, V. Rödl, A. Ruciński and E. Szemerédi: Near-optimal universal graphs for graphs with bounded degrees, in Proc. 5th Int. Workshop on Randomization and Approximation techniques in Computer Science (RANDOM-APPROX 2001), Berkeley 2001, 170–180.
N. Alon and J. H. Spencer: The probabilistic method, 2nd ed., Wiley, New York, 2000.
S. N. Bhatt, F. Chung, F. T. Leighton and A. Rosenberg: Universal graphs for bounded-degree trees and planar graphs, SIAM J. Disc. Math. 2 (1989), 145–155.
B. Bollobás: Long paths in sparse random graphs, Combinatorica 2(3) (1982), 223–228.
B. Bollobás: Random graphs, 2nd ed., Cambridge Studies in Advanced Mathematics, 73, Cambridge University Press, Cambridge, 2001.
F. R. K. Chung and R. L. Graham: On graphs which contain all small trees, J. Combin. Theory Ser. B 24 (1978), 14–23.
F. R. K. Chung and R. L. Graham: On universal graphs, Ann. New York Acad. Sci. 319 (1979), 136–140.
F. R. K. Chung and R. L. Graham: On universal graphs for spanning trees, Proc. London Math. Soc. 27 (1983), 203–211.
F. R. K. Chung, R. L. Graham and N. Pippenger: On graphs which contain all small trees II, in Proc. 1976 Hungarian Colloquium on Combinatorics, 1978, 213–223.
W. Fernandez de la Vega: Long paths in random graphs, Studia Sci. Math. Hungar. 14 (1979), 335–340.
W. Fernandez de la Vega: Trees in sparse random graphs, J. Combin. Theory Ser. B 45 (1988), 77–85.
J. Friedman: On the second eigenvalue and random walks in random d-regular graphs, Combinatorica 11(4) (1991), 331–362.
J. Friedman, J. Kahn and E. Szemerédi: On the second eigenvalue in random regular graphs, in Proc. of 21th ACM STOC (1989), 587–598.
J. Friedman and N. Pippenger: Expanding graphs contain all small trees, Combinatorica 7(1) (1987), 71–76.
A. Frieze: On large matchings and cycles in sparse random graphs, Discrete Math. 59 (1986), 243–256.
M. Krivelevich and B. Sudakov: Sparse pseudo-random graphs are Hamiltonian, J. Graph Theory 42 (2003), 17–33.
L. Pósa: Hamiltonian circuits in random graphs, Discrete Math. 14 (1976), 359–364.
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Research supported in part by a USA-Israeli BSF grant, by NSF grant CCR-0324906, by a Wolfensohn fund and by the State of New Jersey.
Research supported in part by USA-Israel BSF Grant 2002-133, and by grants 64/01 and 526/05 from the Israel Science Foundation.
Research supported in part by NSF CAREER award DMS-0546523, NSF grant DMS-0355497, USA-Israeli BSF grant, and by an Alfred P. Sloan fellowship.
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Alon, N., Krivelevich, M. & Sudakov, B. Embedding nearly-spanning bounded degree trees. Combinatorica 27, 629–644 (2007). https://doi.org/10.1007/s00493-007-2182-z
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DOI: https://doi.org/10.1007/s00493-007-2182-z