Transcript Options
Options: the basics Readings for Options • Forget about the textbook. Read online free sources and the lecture notes. • Most of the lecture materials are drawn from Chicago Broad of Options Exchange learning center Online tutorials Click on “Options Basics” and read: [1] Options Overview [2] Introduction to Options Strategies [3] Expiration, Exercise and Assignment [4] Options Pricing 1 • If you want to know more about options, such as the specific regulations for trading options, you can go to: [1] The Option Industry Council Website [2] The Options Clearing Corporations Website [3] Check out the various websites for US exchanges. Content • • • • What is option? Terminology No arbitrage Pricing Options – The Binomial Option Pricing Model – The Black-Scholes Model Why do we study options? Economics: It is all about our happiness. Happiness = U(Cnow,Cfuture) We are happier with more Cfuture, but because we are risk-averse, we are worried about the fluctuation of Cfuture. As you will see later, options provide a special payoff structure. In words: Our happiness is derived not only from current consumption but also from future consumptions which inherently involves uncertainty. This ultimately constitutes our risk concern over the future payoffs of assets that we own. Because of the special payoff structure of options, holding options enables us to adjust our risk exposure, and ultimately change our happiness level. Options? Terminology Arbitrage Binomial Black-Scholes Who trade options? A quote from Chicago Board Options Exchange (CBOE): “The single greatest population of CBOE users are not huge financial institutions, but public investors, just like you. Over 65% of the Exchange's business comes from them. However, other participants in the financial marketplace also use options to enhance their performance, including: 1. 2. 3. 4. 5. Options? Mutual Funds Pension Plans Hedge Funds Endowments Corporate Treasurers” Terminology Arbitrage Binomial Black-Scholes How big is option trading? 1400 1200 1000 800 600 400 200 2003 2001 1999 1997 1995 1993 1991 1989 1987 1985 1983 1981 1979 1977 1975 0 1973 No. of Contracts in Millions Figure 6.1: Total number of option contracts traded in a year in all exchange 1973 – 2003 (Source: CBOE) Year Options? Terminology Arbitrage Binomial Black-Scholes How big is option trading? 1.6 1.4 1.2 1 0.8 0.6 0.4 0.2 2003 2001 1999 1997 1995 1993 1991 1989 1987 1985 1983 1981 1979 1977 1975 0 1973 No. of Contracts in Millions Figure 6.2: CBOE average daily trading volume 1973 – 2003 (Source: CBOE) Year Options? Terminology Arbitrage Binomial Black-Scholes How big is option trading? Year-End Open Interest (in thousand dollars $) Figure 6.3: CBOE year-end options open-interest dollar amount (in thousands)1973 – 2003 (Source: CBOE) 350000000 300000000 250000000 200000000 150000000 100000000 50000000 0 3 6 9 2 5 8 1 4 7 0 3 7 7 7 8 8 8 9 9 9 0 0 19 19 19 19 19 19 19 19 19 20 20 Year Options? Terminology Arbitrage Binomial Black-Scholes Where do we trade options? Trading of standardized options contracts on a national exchange started in 1973 when the Chicago Board Options Exchange (CBOE), the world's first listed options exchange, began listing call options. Options also trade now on several smaller exchanges, including • New York - the American Stock Exchange (AMEX) - the International Securities Exchange (ISE) Options? • Philadelphia - the Philadelphia Stock Exchange (PHLX) • San Francisco - the Pacific Stock Exchange (PCX) Terminology Arbitrage Binomial Black-Scholes Where do we trade options? Trading of non-standardized options contracts occurs on the Over-thecounter (OTC) market. And it is a bigger market than the exchange-traded market for option trading. • The OTC market is a secondary market that trades securities (stocks or options or other financial assets) which are not traded on an exchange due to various reasons (e.g., an inability to meet listing requirements, special terms in contracts incompatible with exchanges’ standardized terms). • For such securities, broker/dealers negotiate directly with one another over computer networks and by phone, and their activities are monitored by the National Association of Securities Dealers. • One advantage of options traded in OTC is that they can be tailored to meet particular needs of a corporate treasurer or fund manager. Options? Terminology Arbitrage Binomial Black-Scholes Standardized VS Non-Standardized Standardized Options • The terms of the option contract is standardized. • Terms include: 1. The exercise price (also called the strike price) 2. The maturity date (also called the expiration date) • For stock options, this is the third Saturday of the month in which the contract expires. 3. Number of shares committed on the underlying stocks • In US, usually 1 option contract – 100 shares of stock 4. Type: American VS European Non-standardized options also involves these terms, but they can be anything. For example, 1 contract underlies 95 shares instead of 100 shares of stock. Terms being more flexible for non-standardized options and are traded in OTC market are the two distinct features. Options? Terminology Arbitrage Binomial Black-Scholes A screenshot from CBOE • As of Mar 6, 2006 at around 4pm, Intel was selling at $20.27 per share. • An american call option that allows the holder to buy a share of Intel at the third Saturday of Mar 2006 for a price of $20 has a market price of $0.55. • ONE stock option contract is a contract to buy or sell 100 shares. Thus, you need $55 to buy ONE such call option contract in the market. INTC 20.27 -0.05 Mar 06, 2006 @ 15:42 ET (Data 15 Minutes Delayed) Calls Last Sale Net Bid Ask Bid 20.26 Ask 20.27 Size 751x999 Vol 70406762 Vol Open Int Puts Last Sale Net Bid Ask Vol Open Int 06 Mar 17.50 (NQ CW-E) 2.90 +0.35 2.75 2.85 110 7456 06 Mar 17.50 (NQ OW-E) 0.05 pc 0 0.05 0 2388 06 Mar 20.00 (NQ CD-E) 0.55 -0.05 0.50 0.60 1372 61725 06 Mar 20.00 (NQ OD-E) 0.20 -0.10 0.20 0.25 369 139663 06 Mar 22.50 (NQ CX-E) 0.03 pc 0 0.05 0 90504 06 Mar 22.50 (NQ OX-E) 2.25 +0.15 2.20 2.30 27 23342 06 Mar 25.00 (INQ CE-E) 0.05 pc 0 0.05 0 33592 06 Mar 25.00 (INQ OE-E) 4.70 -0.20 4.70 4.80 4 366 06 Apr 17.50 (NQ DW-E) 3.10 +0.10 2.90 3.00 170 10619 06 Apr 17.50 (NQ PW-E) 0.08 -0.07 0.05 0.10 22 14924 06 Apr 20.00 (NQ DD-E) 1.00 -0.10 0.95 1.05 244 67439 06 Apr 20.00 (NQ PD-E) 0.60 -0.05 0.60 0.65 297 78868 06 Apr 22.50 (NQ DX-E) 0.15 -0.05 0.15 0.20 583 112684 06 Apr 22.50 (NQ PX-E) 2.25 -- 2.25 2.35 128 74144 06 Apr 25.00 (INQ DE-E) 0.05 -- 0 0.05 42 72875 06 Apr 25.00 (INQ PE-E) 4.60 -0.40 4.70 4.80 28 16278 Options? Terminology Arbitrage Binomial Black-Scholes What is an option contract? • There are 2 basic types of options: CALLs & PUTs • A CALL option gives the holder the right, but not the obligation • • To buy an asset • By a certain date • For a certain price A PUT option gives the holder the right, but not the obligation • To sell an asset • By a certain date • For a certain price • an asset – underlying asset • Certain date – Maturity date/Expiration date • Certain price – strike price/exercise price Options? Terminology Arbitrage Binomial Black-Scholes Bunch of Jargons Option is a derivative – since the value of an option depends on the price of its underlying asset, its value is derived. In the Money - exercise of the option would be profitable Call: market price>exercise price Put: exercise price>market price Out of the Money - exercise of the option would not be profitable Call: market price>exercise price Put: exercise price>market price At the Money - exercise price and asset price are equal • • e.g., Options? Long – buy Short – sell Long a put on company x – buy a put contract of company x. Short a call on company y – sell a call contract of company y Terminology Arbitrage Binomial Black-Scholes Bunch of Jargons American VS European Options An American option – allows its holder to exercise the right to purchase (if a call) or sell (if a put) the underlying asset on or before the expiration date. A European option – allows its holder to exercise the option only on the expiration date. Options? Terminology Arbitrage Binomial Black-Scholes Call Option’s payoff (European) • Assuming you hold ONE contract of that Calls, i.e., the call contract allows you to buy 100 shares of Intel on the third Saturday of March at an exercise price of $20/share. What is your payoff on expiration date if Intel at that date is: (a) Selling @ $25 • • You will be very happy. To cash in, you do two things simultaneously: • [1] exercise your right, and buy 100 Intel at $20. Total amount you use is $2,000. • [2] sell 100 shares of Intel at the market price (i.e., $25/share). Total amount you get is $2,500. Your payoff is $2,500 - $2,000 = $500. (b) Selling @ $19 Options? • You will be very sad. You would not exercise the rights. The contract is thus expired without exercising. • Your payoff is $0. Terminology Arbitrage Binomial Black-Scholes Call Option’s payoff (European) • Exercise Price = $20/share. • If at maturity, market Price = $25 > $20 (You exercise and get profit, the option you hold is said to be “in-the-money” because exercising it would produce profit) • If at maturity, market price = $19 < $20 (You do not exercise, the option you hold is said to be “out-of-the-money” because exercising would be unprofitable) • In general, if you hold a call option contract, you want Intel’s stock price to skyrocket. If Intel is selling at $100, you will be really happier. • That means, the value of a call option is higher if the underlying asset’s price is higher than the exercise price. • That also means, the value of a call option is zero if the underlying asset’s price is lower than the exercise price. Whether it is $18, $19 or $2.50, it does not matter, the call option will still worth zero. • Try to derive the payoff for the seller of call using this example. Options? Terminology Arbitrage Binomial Black-Scholes Put Option’s payoff (European) • Assuming you hold ONE contract of that Puts, i.e., the put contract allows you to sell 100 shares of Intel on the third Saturday of December at an exercise price of $22.50/share. (current price of this option = 0.65) What is your payoff on expiration date if Intel at that date is: (a) Selling @ $25 • You will be very sad. You would not exercise the rights. The contract is thus expired without exercising. • Your payoff is $0 (b) Selling @ $19 • • Options? You will be very happy. To cash in, you do two things simultaneously: • [1] you buy 100 shares of Intel at $19, total purchase = $1,900 • [2] exercise your right, and sell 100 Intel at $22.5. Total amount you get is $2,250. Your payoff is $2,250 - $1,900 = $350. Terminology Arbitrage Binomial Black-Scholes Put Option’s payoff (European) • Exercise Price = $22.50/share. • If at maturity, market Price = $25 > $22.50 (You do not exercise, and the option you hold is said to be “out-of-themoney” because exercising would be unproductive) • If at maturity, market price = $19 < $22.50 (You exercise, and the option you hold is said to be “in-the-money” because exercising would be profitable) • In general, if you hold a put option contract, you want Intel to go broke. If Intel is selling at a penny, you will be even happier. • That means, the value of a put option is higher if the underlying asset’s price is lower than the exercise price. • That also means, the value of a put option is zero if the underlying asset’s price is higher than the exercise price. Whether it is $23, $24 or $1000, it does not matter, the put option will still worth zero. • Again, try to derive the payoff of the seller. Options? Terminology Arbitrage Binomial Black-Scholes Some more Jargons If the underlying asset of an option is: (a) A stock – then the option is a stock option (b) An index – the option is an index option (c) A future contract – the option is a futures option (d) Foreign currency – the option is a foreign currency option (e) Interest rate – the option is an interest rate option • Options? ECMC49S will only focus on stock option. But you should know that there are other options trading in the market. You should definitely know them when you do interview with a firm or an i-bank for financial position. You will fail your CFA exam if you don’t know them. Terminology Arbitrage Binomial Black-Scholes Stock options VS stocks Let’s say you hold a option contract for IBM. How does that differ from holding IBM’s stock? Similarities: • IBM’s options are securities, so does IBM’s stocks. • Trading IBM’s options is just like trading stocks, with buyers making bids and sellers making offers. • Can easily trade them, say in an exchange. Differences: • IBM’s options are derivatives, but IBM’s stocks aren’t • IBM’s options will expire, while stocks do not. • There is not a fixed number of options. But there is fixed number of stock shares available at any point in time. • Holding stocks of IBM entitles voting rights, but holding IBM’s option does not • IBM has control over its number of stocks. But it has no control over its number of options. Options? Terminology Arbitrage Binomial Black-Scholes Notations Strike price = X Stock price at present = S0 Stock price at expiration = ST Price of a call option = C Price of a put option = P Risk-free interest rate = Rf Expiration time = T Present time = 0 Time to maturity = T – 0 = T Options? Terminology Arbitrage Binomial Black-Scholes Payoff of Long Call If you buy (long) a call option, what is your payoff at expiration? Payoff to Call Holder at expiration (ST - X) if ST >X 0 if ST < X Profit to Call Holder at expiration Payoff – Purchase Price Strike price = X Stock price at present = S0 Stock price at expiration = ST Price of a call option = C $ Payoff Price of a put option = P Risk-free interest rate = Rf Profit Expiration time = T Present time = 0 Time to maturity = T – 0 = T Options? Terminology Purchase price Arbitrage ST x Binomial Black-Scholes Payoff of Short Call If you sell (short) a call option, what is your payoff at expiration? Payoff to Call seller at expiration -(ST - X) if ST >X 0 if ST < X Profit to Call seller at expiration Payoff + Selling Price Strike price = X Stock price at present = S0 Stock price at expiration = ST Price of a call option = C $ Price of a put option = P Risk-free interest rate = Rf Expiration time = T Selling price Present time = 0 ST x Time to maturity = T – 0 = T Profit Payoff Options? Terminology Arbitrage Binomial Black-Scholes Payoff of Long Put If you buy (long) a put option, what is your payoff at expiration? Payoff to Put Holder at expiration 0 if ST >X (X – ST) if ST < X Profit to Put Holder at expiration Payoff - Purchasing Price Strike price = X Stock price at present = S0 Stock price at expiration = ST Price of a call option = C $ Price of a put option = P Risk-free interest rate = Rf Expiration time = T Payoff Present time = 0 x Time to maturity = T – 0 = T ST Purchasing price Profit Options? Terminology Arbitrage Binomial Black-Scholes Payoff of Short Put If you sell (short) a put option, what is your payoff at expiration? Payoff to Put seller at expiration 0 if ST >X -(X – ST) if ST < X Profit to Put seller at expiration Payoff + Selling Price Strike price = X Stock price at present = S0 Stock price at expiration = ST Price of a call option = C $ Price of a put option = P Risk-free interest rate = Rf Profit Expiration time = T Selling price Present time = 0 Options? Terminology ST x Time to maturity = T – 0 = T Arbitrage Payoff Binomial Black-Scholes Payoff of Long Put & Short Call If you buy (long) a put option and sell (short) a call, assuming their exercise prices are the same, what is your payoff at expiration? Payoff to Call seller at expiration Payoff to Put Holder at expiration -(ST - X) if ST >X 0 if ST >X + 0 if ST < X (X – ST) if ST < X $ $ Payoff ST x ST x Payoff Options? Terminology Arbitrage Binomial Black-Scholes Payoff of Long Put & Short Call If you buy (long) a put option and sell (short) a call, assuming their exercise prices are the same, what is your payoff at expiration? Payoff to Call seller at expiration Payoff to Put Holder at expiration -(ST - X) if ST >X 0 if ST >X = -(ST – X) + 0 if ST < X (X – ST) if ST < X = (X - ST) $ ST x Payoff Options? Terminology Arbitrage Binomial Black-Scholes Long Put & Short Call & Long stock If you buy (long) a put option and sell (short) a call, as well as holding 1 stock. Assuming the options’ exercise prices are the same, what is your payoff at expiration? -(ST – X) if ST >X (X - ST) if ST < X + Stock price (ST) at time T = X X if ST >X if ST < X Payoff (long the stock) $ Total Payoff (risk-free) x ST x Payoff (short call & long put) Options? Terminology Arbitrage Binomial Black-Scholes Put-Call Parity What we just do introduces a very important concept for pricing options. Holding a portfolio with (a) 1 stock (which costs S0) (b) selling one call (which earns C) (c) buying one put (which costs P) Total value of constructing portfolio = S0 + P - C Payoff (long the stock) $ The payoff at maturity/expiration is always X !!! Total Payoff (risk-free) x ST x Payoff (short call & long put) Options? Terminology Arbitrage Binomial Black-Scholes Put-Call Parity Total value of constructing portfolio = S0 + P – C Get back X at maturity for sure. Thus X discounted at the risk-free rate should equal to the portfolio value now. S0 + P – C = X/(1+Rf)T Thus, In words: “Current stock price plus price of a corresponding put option at exercise price X minus the price of a corresponding call option with exercise price X is equal to the present value of X at maturity discounted at risk-free rate. Payoff (long the stock) $ Total Payoff (risk-free) x ST x Payoff (short call & long put) Options? Terminology Arbitrage Binomial Black-Scholes Put-Call Parity S + P – C = X/(1+R ) 0 f T Let’s do an exercise. What is the risk-free interest rate? From the data below, S0 = 20.27, 06 APR 25 Call sells at $0.05, C = 0.05, X = 20.27 05 APR 25 Put sells at $4.60, P = 4.60, X = 20.27 Time to maturity is roughly 6.5 weeks. Thus, T = 6.5/52 20.27 + 4.60 – 0.05 = 25/(1+Rf)6.5/52 We have INTC Mar 06, 2006 @ 15:42 ET (Data 15 Minutes Delayed) Calls Last Sale Net Bid Ask 20.27 -0.05 Bid 20.26 Ask 20.27 Size 751x999 Vol 70406762 Vol Open Int Puts Last Sale Net Bid Ask Vol Open Int 06 Mar 17.50 (NQ CW-E) 2.90 +0.35 2.75 2.85 110 7456 06 Mar 17.50 (NQ OW-E) 0.05 pc 0 0.05 0 2388 06 Mar 20.00 (NQ CD-E) 0.55 -0.05 0.50 0.60 1372 61725 06 Mar 20.00 (NQ OD-E) 0.20 -0.10 0.20 0.25 369 139663 06 Mar 22.50 (NQ CX-E) 0.03 pc 0 0.05 0 90504 06 Mar 22.50 (NQ OX-E) 2.25 +0.15 2.20 2.30 27 23342 06 Mar 25.00 (INQ CE-E) 0.05 pc 0 0.05 0 33592 06 Mar 25.00 (INQ OE-E) 4.70 -0.20 4.70 4.80 4 366 06 Apr 17.50 (NQ DW-E) 3.10 +0.10 2.90 3.00 170 10619 06 Apr 17.50 (NQ PW-E) 0.08 -0.07 0.05 0.10 22 14924 06 Apr 20.00 (NQ DD-E) 1.00 -0.10 0.95 1.05 244 67439 06 Apr 20.00 (NQ PD-E) 0.60 -0.05 0.60 0.65 297 78868 06 Apr 22.50 (NQ DX-E) 0.15 -0.05 0.15 0.20 583 112684 06 Apr 22.50 (NQ PX-E) 2.25 -- 2.25 2.35 128 74144 06 Apr 25.00 (INQ DE-E) 0.05 -- 0 0.05 42 72875 06 Apr 25.00 (INQ PE-E) 4.60 -0.40 4.70 4.80 28 16278 Options? Terminology Arbitrage Binomial Black-Scholes