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arxiv: 2412.19020 · v2 · pith:CST5GS4Rnew · submitted 2024-12-26 · 🧮 math.NA · cs.NA· q-fin.MF

Travelling wave solutions of an equation of Harry Dym type arising in the Black-Scholes framework

classification 🧮 math.NA cs.NAq-fin.MF
keywords equationframeworkpartialvolatilityblack-scholesfindharryoperator
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The Black-Scholes framework is crucial in pricing a vast number of financial instruments that permeate the complex dynamics of world markets. Associated with this framework, we consider a second-order differential operator $L(x, {\partial_x}) := v^2(x,t) (\partial_x^2 -\partial_x)$ that carries a variable volatility term $v(x,t)$ and which is dependent on the underlying log-price $x$ and a time parameter $t$ motivated by the celebrated Dupire local volatility model. In this context, we ask and answer the question of whether one can find a non-linear evolution equation derived from a zero-curvature condition for a time-dependent deformation of the operator $L$. The result is a variant of the Harry Dym equation for which we can then find a family of travelling wave solutions. This brings in extensive machinery from soliton theory and integrable systems. As a by-product, it opens up the way to the use of coherent structures in financial-market volatility studies.

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