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Tail probabilities for short-term returns on stocks

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  • Henrik O. Rasmussen
  • Paul Wilmott

Abstract

We consider the tail probabilities of stock returns for a general class of stochastic volatility models. In these models, the stochastic differential equation for volatility is autonomous, time-homogeneous and dependent on only a finite number of dimensional parameters. Three bounds on the high-volatility limits of the drift and diffusion coefficients of volatility ensure that volatility is mean-reverting, has long memory and is as volatile as the stock price. Dimensional analysis then provides leading-order approximations to the drift and diffusion coefficients of volatility for the high-volatility limit. Thereby, using the Kolmogorov forward equation for the transition probability of volatility, we find that the tail probability for short-term returns falls off like an inverse cubic. Our analysis then provides a possible explanation for the inverse cubic fall off that Gopikrishnan et al. (1998) report for returns over 5-120 minutes intervals. We find, moreover, that the tail probability scales like the length of the interval, over which the return is measured, to the power 3/2. There do not seem to be any empirical results in the literature with which to compare this last prediction.

Suggested Citation

  • Henrik O. Rasmussen & Paul Wilmott, 2018. "Tail probabilities for short-term returns on stocks," Papers 1809.08416, arXiv.org, revised Mar 2019.
    • Handle: RePEc:arx:papers:1809.08416
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    References listed on IDEAS

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