English

Economic Fluctuations and Diffusion

Statistical Mechanics 2009-10-31 v1 Disordered Systems and Neural Networks Statistical Finance

Abstract

Stock price changes occur through transactions, just as diffusion in physical systems occurs through molecular collisions. We systematically explore this analogy and quantify the relation between trading activity - measured by the number of transactions NΔtN_{\Delta t} - and the price change GΔtG_{\Delta t}, for a given stock, over a time interval [t,t+Δt][t, t+\Delta t]. To this end, we analyze a database documenting every transaction for 1000 US stocks over the two-year period 1994-1995. We find that price movements are equivalent to a complex variant of diffusion, where the diffusion coefficient fluctuates drastically in time. We relate the analog of the diffusion coefficient to two microscopic quantities: (i) the number of transactions NΔtN_{\Delta t} in Δt\Delta t, which is the analog of the number of collisions and (ii) the local variance wΔt2w^2_{\Delta t} of the price changes for all transactions in Δt\Delta t, which is the analog of the local mean square displacement between collisions. We study the distributions of both NΔtN_{\Delta t} and wΔtw_{\Delta t}, and find that they display power-law tails. Further, we find that NΔtN_{\Delta t} displays long-range power-law correlations in time, whereas wΔtw_{\Delta t} does not. Our results are consistent with the interpretation that the pronounced tails of the distribution of GΔtareduetoG_{\Delta t} are due to w_{\Delta t},andthatthelongrangecorrelationspreviouslyfoundfor, and that the long-range correlations previously found for | G_{\Delta t} |aredueto are due to N_{\Delta t}$.

Keywords

Cite

@article{arxiv.cond-mat/9912051,
  title  = {Economic Fluctuations and Diffusion},
  author = {Vasiliki Plerou and Parameswaran Gopikrishnan and Luis. A. Nunes Amaral and Xavier Gabaix and H. Eugene Stanley},
  journal= {arXiv preprint arXiv:cond-mat/9912051},
  year   = {2009}
}

Comments

RevTex 2 column format. 6 pages, 36 references, 15 eps figures