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Managing Bond Portfolios: Price-Yield Relationship and Duration

Learn about the inverse relationship between bond prices and yields, the impact of maturity on price sensitivity, and how to calculate bond duration. Discover the concept of convexity and its effect on bond prices. Explore callable bonds, mortgage-backed securities, bond-index funds, and immunization strategies. Understand active management techniques such as horizon analysis and contingent immunization.

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Managing Bond Portfolios: Price-Yield Relationship and Duration

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  1. CHAPTER 16 Managing Bond Portfolios

  2. Inverse relationship between price and yield An increase in a bond’s yield to maturity results in a smaller price decline than the gain associated with a decrease in yield Long-term bonds tend to be more price sensitive than short-term bonds Bond Pricing Relationships

  3. Figure 16.1 Change in Bond Price as a Function of Change in Yield to Maturity

  4. As maturity increases, price sensitivity increases at a decreasing rate Price sensitivity is inversely related to a bond’s coupon rate Price sensitivity is inversely related to the yield to maturity at which the bond is selling Bond Pricing Relationships Continued

  5. Table 16.1 Prices of 8% Coupon Bond (Coupons Paid Semiannually)

  6. Table 16.2 Prices of Zero-Coupon Bond (Semiannually Compounding)

  7. A measure of the effective maturity of a bond The weighted average of the times until each payment is received, with the weights proportional to the present value of the payment Duration is shorter than maturity for all bonds except zero coupon bonds Duration is equal to maturity for zero coupon bonds Duration

  8. Duration: Calculation

  9. Spreadsheet 16.1 Calculating the Duration of Two Bonds

  10. Price change is proportional to duration and not to maturity D*= modified duration Duration/Price Relationship

  11. Rules for Duration Rule 1 The duration of a zero-coupon bond equals its time to maturity Rule 2 Holding maturity constant, a bond’s duration is higher when the coupon rate is lower Rule 3 Holding the coupon rate constant, a bond’s duration generally increases with its time to maturity Rule 4 Holding other factors constant, the duration of a coupon bond is higher when the bond’s yield to maturity is lower Rules 5 The duration of a level perpetuity is equal to: (1+y) / y

  12. Figure 16.2 Bond Duration versus Bond Maturity

  13. Table 16.3 Bond Durations (Yield to Maturity = 8% APR; Semiannual Coupons)

  14. Convexity The relationship between bond prices and yields is not linear Duration rule is a good approximation for only small changes in bond yields

  15. Figure 16.3 Bond Price Convexity: 30-Year Maturity, 8% Coupon; Initial Yield to Maturity = 8%

  16. Correction for Convexity Correction for Convexity:

  17. Figure 16.4 Convexity of Two Bonds

  18. Callable Bonds As rates fall, there is a ceiling on possible prices The bond cannot be worth more than its call price Negative convexity Use effective duration:

  19. Figure 16.5 Price –Yield Curve for a Callable Bond

  20. Mortgage-Backed Securities Among the most successful examples of financial engineering Subject to negative convexity Often sell for more than their principal balance Homeowners do not refinance their loans as soon as interest rates drop

  21. Figure 16.6 Price -Yield Curve for a Mortgage-Backed Security

  22. Mortgage-Backed Securities Continued They have given rise to many derivatives including the CMO (collateralized mortgage obligation) Use of tranches

  23. Figure 16.7 Panel A: Cash Flows to Whole Mortgage Pool; Panels B–D Cash Flows to Three Tranches

  24. Bond-Index Funds Immunization of interest rate risk: Net worth immunization Duration of assets = Duration of liabilities Target date immunization Holding Period matches Duration Passive Management

  25. Figure 16.8 Stratification of Bonds into Cells

  26. Table 16.4 Terminal value of a Bond Portfolio After 5 Years (All Proceeds Reinvested)

  27. Figure 16.9 Growth of Invested Funds

  28. Figure 16.10 Immunization

  29. Table 16.5 Market Value Balance Sheet

  30. Cash Flow Matching and Dedication Automatically immunize the portfolio from interest rate movement Cash flow and obligation exactly offset each other i.e. Zero-coupon bond Not widely used because of constraints associated with bond choices Sometimes it simply is not possible to do

  31. Substitution swap Intermarket swap Rate anticipation swap Pure yield pickup Tax swap Active Management: Swapping Strategies

  32. Horizon Analysis Select a particular holding period and predict the yield curve at end of period Given a bond’s time to maturity at the end of the holding period Its yield can be read from the predicted yield curve and the end-of-period price can be calculated

  33. Contingent Immunization A combination of active and passive management The strategy involves active management with a floor rate of return As long as the rate earned exceeds the floor, the portfolio is actively managed Once the floor rate or trigger rate is reached, the portfolio is immunized

  34. Figure 16.11 Contingent Immunization

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