some generalized results on graph theory in statistical physics
Pralahad Mahagaokar,
Published in International Journal of Advanced Research in Mathematics and Applications
ISSN: 2350-028X Impact Factor:1.2 Volume:1 Issue:2 Year: 05 July,2016 Pages:83-85
Abstract
In this paper we consider that the best way introducing this connection is through generalization of the physical model and the graphical model .We will be walking for some time where the connections between graph theory and statistical physics lead us.
Kewords
Graph, partition function, Ising problem, Tutte polynomial, knot diagram.
Reference
[1].Arenas, A.,Diaz-Guilera, A.,Pérez-Vicente, C. J. (2006). Physica D 224, 27-34. [2].B.A. Cipra, An Introduction to the Ising Model, Amer. Math. Monthly, 94:937-959, 1987. [3].Bapat, R. B., Gutman, I., Xiao, W. (2003). Z. Naturforsch. 58a, 494 – 498. [4].Barabási, A.-L. Albert, R. (1999). Science 286, 509-512. [5].Barahona, M., Pecora, L. M. (2002). Phys. Rev. Lett. 89, 054101. [6].Barrat, A., Weigt, M. (2000). Eur. Phys. J. B. 13, 547-560. [7].Beaudin, L., Ellis-Monaghan, J., Pangborn, G., Shrock, R. (2010). [8].Berkolaiko, G. Kuchment, P. (2013). Introduction to Quantum Graphs. [9].Doyle, P., Snell, J. (1984). Random Walks and Electric Networks. Carus Math. Monogr. 22, Washington, D.C. [10].Dorogovtsev, S. N., Mendes, J. F. F. (2003). Evolution of Networks. [11].Ellis-Monaghan, J. A., Merino, C. (2011). In Structural Analysis of Complex Networks, M. Dehmer (ed.), pp. 219-255. [12].Erdös, P., Rényi, A. (1959). Publ. Math. Debrecen 5, 290-297. [13].Harary, F.(Ed.)(1968). Graph Theory and Theoretical Physics. Academic Press Inc., US. [14].Morita, Y., Suzuki, S., Sato, K., Takui, T. (2011). Nature Chem. 3, 197-204. [15].Newman, M. E. J. (2006). Proc. Natl. Acad. Sci. USA 103, 8577-8582. [16].Newman, M. E. J., Strogatz, S. H., Watts, D. J. (2001). Phys. Rev. [17].Olfati-Saber, R., Fax, J. A., Murray, R. M. (2007) Proc. IEEE 95, 215-233 [18].Ottino, J. M. (2003). AIChE J., 49, 292-299. [19].Powell, B. J. (2009). An introduction to effective low-energy Hamiltonians in condensed matter physics and chemistry. [20].Yang, A. and Shan, Y. (eds), (IGI Global: Hershey, PA) pp105-124, arXiv:0805.0685.
