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Chapter 23 Removing Interest Rate Risk

Chapter 23 Removing Interest Rate Risk. The first mistake is usually the cheapest mistake. - A trader adage. Outline. Introduction Interest rate futures contracts Concept of immunization. Introduction.

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Chapter 23 Removing Interest Rate Risk

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  1. Chapter 23Removing Interest Rate Risk

  2. The first mistake is usually the cheapest mistake. - A trader adage

  3. Outline • Introduction • Interest rate futures contracts • Concept of immunization

  4. Introduction • A portfolio is interest rate sensitive if its value declines in response to interest rate increases • Especially pronounced: • For portfolios with income as their primary objective • For corporate and government bonds

  5. Interest Rate Futures Contracts • Categories of interest rate futures contracts • U.S. Treasury bills and their futures contracts • Treasury bonds and their futures contracts

  6. Categories of Interest Rate Futures Contracts • Short-term contracts • Intermediate- and long-term contracts

  7. Short-Term Contracts • The two principal short-term futures contracts are: • Eurodollars • U.S. dollars on deposit in a bank outside the U.S. • The most popular form of short-term futures • Not subject to reserve requirements • Carry more risk than a domestic deposit • U.S. Treasury bills

  8. Intermediate- and Long-Term Contracts • Futures contract on U.S. Treasury notes is the only intermediate-term contract • The principal long-term contract is the contract on U.S. Treasury bonds • Special-purpose contracts: • Municipal bonds • U.S. dollar index

  9. U.S. Treasury Bills and Their Futures Contracts • Characteristics of U.S. Treasury bills • Treasury bill futures contracts

  10. Characteristics of U.S. Treasury Bills • U.S. Treasury bills: • Are sold at a discount from par value • Are sold with 91-day and 182-day maturities at a weekly auction • Are calculated following a standard convention and on a bond equivalent basis

  11. Characteristics of U.S. Treasury Bills (cont’d) • Standard convention:

  12. Characteristics of U.S. Treasury Bills (cont’d) • The T-bill yield on a bond equivalent basis adjusts for: • The fact that there are 365 days in a year • The fact that the discount price is the required investment, not the face value

  13. Characteristics of U.S. Treasury Bills (cont’d) • The T-bill yield on a bond equivalent basis:

  14. Characteristics of U.S. Treasury Bills (cont’d) Example A 182-day T-bill has an ask discount of 5.30 percent. The par value is $10,000. What is the price of the T-bill? What is the yield of this T-bill on a bond equivalent basis?

  15. Characteristics of U.S. Treasury Bills (cont’d) Example (cont’d) Solution: We must first compute the discount amount to determine the price of the T-bill:

  16. Characteristics of U.S. Treasury Bills (cont’d) Example (cont’d) Solution (cont’d): With a discount of $267.94, the price of this T-bill is:

  17. Characteristics of U.S. Treasury Bills (cont’d) Example (cont’d) Solution (cont’d): The bond equivalent yield is 5.52%:

  18. Treasury Bill Futures Contracts • T-bill futures contracts: • Call for the delivery of $1 million par value • Of 90-day T-bills • On the delivery date of the futures contract

  19. Treasury Bill Futures Contracts (cont’d) Example Listed below is information regarding a T-bill futures contract. What would you pay for this futures contract today?

  20. Treasury Bill Futures Contracts (cont’d) Example (cont’d) Solution: First, determine the yield for the life of the T-bill: 7.52% x 90/360 = 1.88% Next, discount the contract value by the yield: $1,000,000/(1.0188) = $981,546.92

  21. Treasury Bonds and Their Futures Contracts • Characteristics of U.S. Treasury bonds • Treasury bond futures contracts

  22. Characteristics of U.S. Treasury Bonds • U.S. Treasury bonds: • Pay semiannual interest • Have a maturity of up to 30 years • Trade readily in the capital markets

  23. Characteristics of U.S. Treasury Bonds (cont’d) • U.S. Treasury bonds differ from U.S. Treasury notes: • T-notes have a life of less than ten year • T-bonds are callable fifteen years after they are issued

  24. Treasury Bond Futures Contracts • U.S. Treasury bond futures: • Call for the delivery of $100,000 face value of U.S. T-bonds • With a minimum of fifteen years until maturity (fifteen years of call protection for callable bonds) • Bonds that meet these criteria are deliverable bonds

  25. Treasury Bond Futures Contracts (cont’d) • A conversion factor is used to standardize deliverable bonds: • The conversion is to bonds yielding 6 percent • Published by the Chicago Board of Trade • Is used to determine the invoice price

  26. Sample Conversion Factors

  27. Treasury Bond Futures Contracts (cont’d) • The invoice price is the amount that the deliverer of the bond receives when a particular bond is delivered against a futures contract:

  28. Treasury Bond Futures Contracts (cont’d) • Position day is the day the bondholder notifies the clearinghouse of an intent to delivery bonds against a futures position • Two business days prior to the delivery date • Delivery occurs by wire transfer between accounts

  29. Treasury Bond Futures Contracts (cont’d) • At any given time, several bonds may be eligible for delivery • Only one bond is cheapest to delivery • Normally the eligible bond with the longest duration • The bond with the lowest ratio of the bond’s market price to the conversion factor is the cheapest to deliver

  30. Cheapest to Deliver Calculation

  31. Concept of Immunization • Definition • Duration matching • Immunizing with interest rate futures • Immunizing with interest rate swaps • Disadvantages of immunizing

  32. Definition • Immunization means protecting a bond portfolio from damage due to fluctuations in market interest rates • It is rarely possible to eliminate interest rate risk completely

  33. Duration Matching • An independent portfolio • Bullet immunization example • Expectation of changing interest rates • An asset portfolio with a corresponding liability portfolio

  34. An Independent Portfolio • Bullet immunization is one method of reducing interest rate risk associated with an independent portfolio • Seeks to ensure that a set sum of money will be available at a specific point in the future • The effects of interest rate risk and reinvestment rate risk cancel each other out

  35. Bullet Immunization Example • Assume: • You are required to invest $936 • You are to ensure that the investment will grow at a 10 percent compound rate over the next 6 years • $936 x (1.10)6 = $1,658.18 • The funds are withdrawn after 6 years

  36. Bullet Immunization Example (cont’d) • If interest rates increase over the next 6 years: • Reinvested coupons will earn more interest • The value of any bonds we buy will decrease • Our portfolio may end up below the target value

  37. Bullet Immunization Example (cont’d) • Reduce the interest rate risk by investing in a bond with a duration of 6 years • One possibility is the 8.8 percent coupon bond shown on the next two slides: • Interest is paid annually • Market interest rates change only once, at the end of the third year

  38. Expectation of Changing Interest Rates • The higher the duration, the higher the interest rate risk • To reduce interest rate risk, reduce the duration of the portfolio when interest rates are expected to increase • Duration declines with shorter maturities and higher coupons

  39. An Asset Portfolio With A Liability Portfolio • A bank immunization case occurs when there are simultaneously interest-sensitive assets and interest-sensitive liabilities • A bank’s funds gap is its rate-sensitive assets (RSA) minus its rate-sensitive liabilities (RSL)

  40. An Asset Portfolio With A Liability Portfolio (cont’d) • A bank can immunize itself from interest rate fluctuations by restructuring its balance sheet so that:

  41. An Asset Portfolio With A Liability Portfolio (cont’d) • If the dollar-duration value of the asset side exceeds the dollar-duration of the liability side: • The value of RSA will fall to a greater extent than the value of RSL • The net worth of the bank will decline

  42. An Asset Portfolio With A Liability Portfolio (cont’d) • To immunize if RSA are more sensitive than RSL: • Get rid of some RSA • Reduce the duration of the RSA • Issue more RSL or • Raise the duration of the RSL

  43. Immunizing With Interest Rate Futures • Financial institutions use futures to hedge interest rate risk • If interest rate are expected to rise, go short T-bond futures contracts

  44. Immunizing With Interest Rate Futures (cont’d) • To hedge, first calculate the hedge ratio:

  45. Immunizing With Interest Rate Futures (cont’d) • Next, calculate the number of contracts necessary given the hedge ratio:

  46. Immunizing With Interest Rate Futures (cont’d) Example A bank portfolio manager holds $20 million par value in government bonds that have a current market price of $18.9 million. The weighted average duration of this portfolio is 7 years. Cheapest-to-deliver bonds are 8.125s28 T-bonds with a duration of 10.92 years and a conversion factor of 1.2786. What is the hedge ratio? How many futures contracts does the bank manager have to short to immunize the bond portfolio, assuming the last settlement price of the futures contract was 94 15/32?

  47. Immunizing With Interest Rate Futures (cont’d) Example Solution: First calculate the hedge ratio:

  48. Immunizing With Interest Rate Futures (cont’d) Example Solution: Based on the hedge ratio, the bank manager needs to short 155 contracts to immunize the portfolio:

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