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Quantitative Finance
Lecture 12
Black Scholes Formula
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From Random Walks to the Heat Equation
Consider a random walk
Suppose at time t one is at position x
Consider the probability distribution at the next time step
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Who ordered that…...
Taylor expanding etc…
Taking vanishingly small time steps and noting we scaled so that remained finite
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The „Scaling‟
We note that to get the heat equation we needed the scaling
This points towards the fact that in the heat equation the two variables appear in this particular combination
We will exploit this in order to reduce the heat equation to an ordinary differential equation
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Similarity Solution
Consider the IVP
Consider the similarity transform
With
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Similarity Solution
We note that
So that the IVP becomes
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Similarity Solution
Simplifying we get
Which implies that
Choose such that
Giving
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Similarity Solution
In terms of the original variables
This is a „delta sequence‟ introduced in the previous lecture
This satisfies the delta function initial condition!!
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The Heat Kernel
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Solving the Heat Equation
For a general initial condition we note that the solution is given by
The idea is that you „break‟ your IC into tiny bits and add then (integrate)
See “A small note on Green‟s Functions” on the course webpage for more details
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Back to the Black Scholes Equation
We had transformed the B-S FVP to the IVP
Where
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Solving the Black Scholes for a European Call
Here the final condition is replaced by the IC
Recalling the IVP and the fundamental solution, we have
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Solving the Black Scholes for a European Call
Going back to the original variables
The call option has the payoff
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Solving the Black Scholes for a European Call
Substituting into the solution we have
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Solving the Black Scholes for a European Call
From which we get
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Solving the Black Scholes for a European Call
These are integrals of the form
By doing a little algebra (HW 2) we have
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European Call Option