Chapter 2 Bond Prices and Yields FIXED-INCOME SECURITIES Chapter 2 Bond Prices and Yields
Outline Bond Pricing Time-Value of Money Present Value Formula Interest Rates Frequency Continuous Compounding Coupon Rate Current Yield Yield-to-Maturity Bank Discount Rate Forward Rates
Bond Pricing Bond pricing is a 2 steps process Step 1 - Example Step 1: find the cash-flows the bondholder is entitled to Step 2: find the bond price as the discounted value of the cash-flows Step 1 - Example Government of Canada bond issued in the domestic market pays one-half of its coupon rate times its principal value every six months up to and including the maturity date Thus, a bond with an 8% coupon and $5,000 face value maturing on December 1, 2005 will make future coupon payments of 4% of principal value every 6 months That is $200 on each June 1 and December 1 between the purchase date and the maturity date
Bond Pricing Step 2 is discounting Does it make sense to discount all cash-flows with same discount rate? Notion of the term structure of interest rates – see next chapter Rationale behind discounting: time value of money
Time-Value of Money Would you prefer to receive $1 now or $1 in a year from now? Chances are that you would go for money now First, you might have a consumption need sooner rather than later That shouldn’t matter: that’s what fixed-income markets are for You may as well borrow today against this future income, and consume now In the presence of money market, the only reason why one would prefer receiving $1 as opposed to $1 in a year from now is because of time-value of money
Present Value Formula If you receive $1 today Invest it in the money market (say buy a one-year T-Bill) Obtain some interest r on it Better off as long as r strictly positive: 1+r>1 iff r>0 How much is worth a piece of paper (contract, bond) promising $1 in 1 year? Since you are not willing to exchange $1 now for $1 in a year from now, it must be that the present value of $1 in a year from now is less than $1 Now, how much exactly is worth this $1 received in a year from now? Would you be willing to pay 90, 80, 20, 10 cents to acquire this dollar paid in a year from now? Answer is 1/(1+r) : the exact amount of money that allows you to get $1 in 1 year
Interest Rates Specifying the rate is not enough One should also specify Maturity Frequency of interest payments Date of interest rates payment (beginning or end of periods) Basic formula After 1 period, capital is C1= C0 (1+ r ) After n period, capital is Cn = C0(1+ r )n Interests : I = Cn - C0 Example Invest $10,000 for 3 years at 6% with annual compounding Obtain $11,910 = 10,000 x (1+ .06)3 at the end of the 3 years Interests: $1,910
Frequency Watch out for Examples Time-basis (rates are usually expressed on an annual basis) Compounding frequency Examples Invest $100 at a 6% two-year annual rate with semi-annual compounding 100 x (1+ 3%) after 6 months 100 x (1+ 3%)2 after 1 year 100 x (1+ 3%)3 after 1.5 year 100 x (1+ 3%)4 after 2 years Invest $100 at a 6% one-year annual rate with monthly compounding 100 x (1+ 6/12%) after 1 month 100 x (1+ 6/12%)2 after 2 months …. 100 x (1+ 6/12%)12 = $106.1678 after 1 year Equivalent to 6.1678% annual rate with annual compounding
Frequency More generally Amount x invested at the interest rate r Expressed in an annual basis Compounded n times per year For T years Grows to the amount The effective equivalent annual (i.e., compounded once a year) rate ra is defined as the solution to or
Continuous Compounding Very convenient: present value of X is Xe-rT One may of course easily obtain the effective equivalent annual ra What happens if we get continuous compounding The amount of money obtained per dollar invested after T years is The equivalent annual rate of a 6% continuously compounded interest rate is e6% –1 = 6.1837%
Bond Prices Bond price Coupon bond Note that when r=c, P=N (see next example) Shortcut when cash-flows are all identical (can you prove it?)
Bond Prices - Example Example Present value Consider a bond with 5% coupon rate 10 year maturity $1,000 face value All discount rates equal to 6% Present value We could have guessed that price was below par You do not want to pay the full price for a bond paying 5% when interest rates are at 6% What happens if rates decrease to 5%? Price = $1,000
Perpetuity When the bond has infinite maturity (consol bond) Example How much money should you be willing to pay to buy a contract offering $100 per year for perpetuity? Assume the discount rate is 5% The answer is When the bond has infinite maturity (consol bond) Perpetuities are issued by the British government (consol bonds)
Coupon Rate and Current Yield Coupon rate is the stated interest rate on a security It is referred to as an annual percentage of face value It is usually paid twice a year It is called the coupon rate because bearer bonds carry coupons for interest payments It is only used to obtain the cash-flows Current yield gives you a first idea of the return on a bond Example A $1,000 bond has a coupon rate of 7 percent If you buy the bond for $900, your actual current yield is
Yield to Maturity (YTM) It is the interest rate that makes the present value of the bond’s payments equal to its price It is the solution to (T is number of periods) YTM is the IRR of cash-flows delivered by bonds YTM may easily be computed by trial-and-error YTM is typically a semi-annual rate because coupons usually paid semi-annually Each cash-flow is discounted using the same rate Implicitly assume that the yield curve is flat at a point in time It is a complex average of pure discount rates (see below)
BEY versus EAY Bond equivalent yield (BEY): obtained using simple interest to annualize the semi-annual YTM (street convention): y = 2 YTM One can always turn a bond yield into an effective annual yield (EAY), i.e., an interest rate expressed on a yearly basis with annual compounding Example What is the effective annual yield of a bond with a 5.5% annual YTM Answer is
One Last Complication What happens if we don’t have integer # of periods? Example Consider the US T-Bond with coupon 4.625% and maturity date 05/15/2006, quoted price is 101.739641 on 01/07/2002 What is the YTM and EAY? Solution (street convention) There are 128 calendar days between 01/07/2002 and the next coupon date (05/15/2002) Fed convention: =1+YTM/2*128/181 EAY is
Quoted Bond Prices - Screen
Quoted Bond Prices - Paper
Quoted Bond Prices Bonds are Prices Ask yield Sold in denominations of $1,000 par value Quoted as a percentage of par value Prices Integer number + n/32ths (Treasury bonds) or + n/8ths (corporate bonds) Example: 112:06 = 112 6/32 = 112.1875% Change -5: closing bid price went down by 5/32% Ask yield YTM based on ask price (APR basis:1/2 year x 2) Not compounded (Bond Equivalent Yield as opposed to Effective Annual Yield)
Examples Example To answer that question With solution y/2 = 3% or y = 6% Example Consider a $1,000 face value 2-year bond with 8% coupon Current price is 103:23 What is the yield to maturity of this bond? To answer that question First note that 103:23 means 103 + (23/32)%=103.72% And obtain the following equation
Accrued Interest The quoted price (or market price) of a bond is usually its clean price, that is its gross price (or dirty or full price) minus the accrued interest Example An investor buys on 12/10/01 a given amount of the US Treasury bond with coupon 3.5% and maturity 11/15/2006 The current market price is 96.15625 The accrued interest period is equal to 26 days; this is the number of calendar days between the settlement date (12/11/2001) and the last coupon payment date (11/15/2001) Hence the accrued interest is equal to the coupon payment (1.75) times 26 divided by the number of calendar days between the next coupon payment date (05/15/2002) and the last coupon payment date (11/15/2001) In this case, the accrued interest is equal to $1.75x(26/181) = $0.25138 The investor will pay 96.40763 = 96.15625 + 0.25138 for this bond
Bank Discount Rate (T-Bills) Bank discount rate is the quoted rate on T-Bills where P is price of T-Bill n is # of days until maturity Example: 90 days T-Bill, P = $9,800 Can’t compare T-bill directly to bond 360 vs 365 days Return is figured on par vs. price paid
Bond Equivalent Yield BDR versus BEY (exercise: Show it!) Adjust the bank discounted rate to make it comparable Example: same as before
Spot Zero-Coupon (or Discount) Rate Spot Zero-Coupon (or Discount) Rate is the annualized rate on a pure discount bond where B(0,t) is the market price at date 0 of a bond paying off $1 at date t See Chapter 4 for how to extract implicit spot rates from bond prices General pricing formula
Bond Par Yield Recall that a par bond is a bond with a coupon identical to its yield to maturity The bond's price is therefore equal to its principal Then we define the par yield c(n) so that a n-year maturity fixed bond paying annually a coupon rate of c(n) with a $100 face value quotes at par Typically, the par yield curve is used to determine the coupon level of a bond issued at par
Forward Rates One may represent the term structure of interest rates as set of implicit forward rates Consider two choices for a 2-year horizon: Choice A: Buy 2-year zero Choice B: Buy 1-year zero and rollover for 1 year What yield from year 1 to year 2 will make you indifferent between the two choices?
Forward Rates (continued) They are ‘implicit’ in the term structure Rates that explain the relationship between spot rates of different maturity Example: Suppose the one year spot rate is 4% and the eighteen month spot rate is 4.5%
Recap: Taxonomy of Rates Coupon Rate Current Yield Yield to Maturity Zero-Coupon Rate Bond Par Yield Forward Rate