Lecture 7: Bounds on Options Prices Steven Skiena. http://www.cs.sunysb.edu/ skiena



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Lecture 7: Bounds on Options Prices Steven Skiena Department of Computer Science State University of New York Stony Brook, NY 11794 4400 http://www.cs.sunysb.edu/ skiena

Option Price Quotes

Reading the Quotes Bid and Ask are what the market maker is willing to buy and sell at now. The Last sales price is usually between them. Volume is the number of transactions in the option that day. Open interest counts the number of contracts that have been issued to date which have not yet been offset/closed out. Option prices decrease (increase) with respect to strike price for calls (puts).

Factors Affecting Option Prices 1. The current stock price S 0. 2. The option strike price K. 3. The time to expiration T. 4. The volatility of the stock price σ. 5. The risk-free interest rate r. 6. The value of dividends expected during the life of the option.

Impact on Option Prices Suppose each relevant factor increased in isolation. How does that impact the value of an American option? variable call put stock price + strike price + expiration date + + volatility + + risk-free rate + dividends +

Impact of Rate Changes? The confusing one is the impact of increasing the risk-free rate. If interest increases independently of stock price, the present cost (value) of my call purchase (put sale) in the future decreases good for call, bad for put. In practice, when interest rates go up usually stock prices down, so a rate increase is bad for a call and good for a put. The only change with European option prices are that there is no certain relationship with expiration date for example, increasing T might cover an extra dividend payment.

Upper/Lower Bounds on European Option Prices Let p and c be the value of European put and call options. We assume no stocks pay dividends. Since an option to buy a share of stock at any positive price cannot be worth more than the value of the share, so c S 0. Since an option to sell a share of stock at the strike price cannot be worth more than the strike price, so p K. Since the European option is worth at most K at maturity, it cannot be worth more than the discounted value of this amount, so p Ke rt.

Better Bounds by Arbitrage Arguments Portfolio A consists of a European call option for one share at K plus Ke rt worth of cash to execute it at time T. At time T, this is worth S T if S T > K, or K if K > S T and we don t buy the option, or in other words max(s T, K). Portfolio B consists of one share, and will be worth S T at time T. That A is worth more than B at time T, implies A is worth more than B now since otherwise an arbitrage possibility exists. Thus c + Ke rt S 0. Since no option can have negative value, c max(s 0 Ke rt, 0)

Lower Bound on Puts A similar argument for puts shows that p max(ke rt S 0, 0) Portfolio A consists of a European put option for one share at K at time T plus one share. At time T, this is worth S T if S T > K, or K if K > S T and we don t buy the option, or in other words max(s T, K). Portfolio B consists of Ke rt worth of cash That A is worth more than B at time T, implies A is worth more than B now since otherwise an arbitrage possibility exists. Thus p + S 0 Ke rt.

Put-Call Parity In fact, there is a tight put-call parity relationship between the value of a European put and call. Consider the following portfolios: Portfolio A consists of a European call option for one share plus Ke rt worth of cash to execute it at time T, worth max(s T, K) at time T by our previous arguments. Portfolio C consists of a European put option plus one share of stock, also worth max(s T,K) at time T. Since they have equal value then they must have equal value now, so c + Ke rt = p + S 0

What About American Options? Similar but weaker bounds hold for American options S 0 K C P S 0 Ke rt The gap here is associated with the observation that one can execute an American option immediately, but the holder of a European option cannot cash in until time T, when it will be discounted. Empirical results basically support the bound on over reasonable time scales to the resolution of transaction costs.

Another View of Put-Call Parity Suppose I buy a call option and sell a put option, both at strike price K and expiration time T. The sum of these two payoff functions is linear, just like owning a share! The curve is shifted so profit is zero at K, however. The payoff at T is S T K. Discounting this to the present gives c p = S 0 Ke rt or c + Ke rt = p + S 0

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