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Does Security Transaction Volume/Price Behave a Probability Wave? Shi, Leileia,b,c (June 12, 2005) a Department of Systems Science, School of Management, Beijing Normal University Beijing 100875, P.R. China b Department of Modern Physics, University of Science and Technology of China Hefei 230026, Anhui, P.R. China c Agents, Generali-China Life Insurance Co. Ltd. (Beijing Branch) Floor 6, Tower C2, Oriental Plaza, No. 1 East Chang An Ave., Beijing 100738, P.R. China Abstract In this paper, we observe a stationary transaction volume distribution over a trading price range in intraday transactions on individual stocks by studying relationship between the volume and price of transaction through amount of transaction in stock market. The transaction or accumulated trading volume gradually emerges kurtosis near the price mean value over a trading price range when it takes a longer trading time, regardless of actual price fluctuation path, time series, or total transaction volume in the time interval. Moreover, the volumes are not distributed normally. Whereas some of the distributions appear to be normal, others show to be wave, and the others exhibit to be exponent. These phenomena can not be explained by a current economic and finance mainstream theory—both a rational trading assumption and a price volatility random walk hypothesis that could be traced to Bachelier’s dissertation regarding an option pricing problem. Does the volume/price behave a probability wave toward an equilibrium price, driven by a restoring force in financial market? We first use the absolute of zero-order Bessel eigenfunction model to test the distributions and draw a major conclusion that our observation holds true. In order to explain the volume/price behavior, we, in terms of physics, develop a transaction energy hypothesis to construct a Hamiltonian that is equal to the sum of transaction dynamic energy and potential energy over a trading price range in a transaction system, derive a time-independent security transaction volume/price probability wave equation, and get two sets of analytical transaction volume distribution eigenfunctions over a trading price range when supply or demand quantity varies. One is a set of zero-order Bessel eigenfunctions, and the other is a set of the eigenfunctions called as random characteristic eigenfuctions. By fitting and testing the functions with intraday real transaction volume distributions over a trading price range on a considerable number of individual stocks in Shanghai 180 Index, we show the existence of a dynamic equilibrium price and coherence between transaction force and restoring force in stock market, and demonstrate the model validation at this early stage. It concludes that either static supply/demand equilibrium price model or price random walk hypothesis is an extreme conditional case in this wave model if restoring force is zero or if the force is a constant over a trading price range, respectively. Thus, we attempt to offer a unified micro and dynamic wave theory on price volatility (volume) probability in financial market. Mathematics Subject Classification: 60Axx; 60 Exx; 60Gxx; 60 Hxx; 74Jxx; 74 Gxx Keywords: Transaction volume (probability) distribution; Linear potential; Volume/price probability wave equation; Eigenfunctions; Coherence; Financial market [1] K.J. Arrow, General economic equilibrium: purpose, analytic techniques, collective choice, Nobel Memorial Lecture, Nobel Prize Foundation, 1972; [2] J. Wang, Trading volume and asset prices, Annals of Economics and Finance 3 (2002), 299-359; [3] V. Plerou, P. Gopikrishnan, X. Gabaix, and H.E. Stanley, Quantifying stock-price response to demand fluctuations, Physical Review E 66 (2002), 027104; [4] L.L. Shi, Security transaction probability wave equation—a volume/price probability wave model, Econophysics Forum, 2004, http://www.unifr.ch/econophysics/PHP/formulaire/redirect.php?year=2004&code=net/0403002&v ersion=abs;