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In this paper, we show that the price of a premium bond and the price of a discount bond will both move toward face value at an increasing rate as the bonds approach maturity. We present a mathematical proof to show that the decline in premium and discount decline over time, to be referred to as time decay, accelerates as time passes by. We also provide numerical examples and graphical representations to illustrate the time passage effect on bond prices and discuss the implications of the findings to bond investor and asset managers in light of the quantitative easing policies taken by central banks after the 2008 financial crisis.

Researchers in economics and finance have studied the relationships among bond prices, interest rates, and maturity for many years. One of the best known results in the study is that, if the market interest rate on a bond remains unchanged, the price of a bond will approach its face value as the bond approaches maturity. However, how exactly and in what way the bond price approaches its face value has not been well discussed in textbooks. For example, when a bond is selling at premium (i.e. when the bond price is above its face value), the only way for the bond price to approach its face value is to move downward. Therefore the price path toward maturity for a premium bond must be downward-sloping. However, a downward-sloping path could be convex (decreasing at a decreasing rate), concave (decreasing at an increasing rate), or a straight line (decreasing at constant rate), to name just three. Similarly, when a bond is selling at discount (i.e. when the bond price is below its face value), the only way for the bond price to reach its face value is to move upward. Therefore the price path toward maturity for a discount bond must be upward-sloping. However, an upward-sloping path could also be convex (increasing at an increasing rate), concave (increasing at a decreasing rate), or a straight line (increasing at constant rate).

In this paper we formally present a mathematical proof to show that the price path for a premium bond is concave (decreasing toward the par at an increasing rate) and the price path for a discount bond is convex (in- creasing toward the par at an increasing rate) as the bond approaches maturity. In other words, we show that both the premium (defined as price minus the par) and the discount (defined as par minus the price) are di- minishing at an increasing rate as the bond approaches maturity. This is the first contribution of our study be- cause, to the best of our knowledge, no study in the literature has formally presented a mathematical proof to show that both the premium and the discount diminish at an increasing rate as bond approaches maturity^{1}. Since both the premium and the discount will decrease over time when interest rate remains unchanged, we will refer to the decrease in premium and discount as time decay of premium and discount.

One of the reasons that most textbooks only briefly address the issue of bond price path toward maturity (e.g. Brigham and Houston, 2012) [^{2}. It is true that interest rate may be constantly changing. However, the change in interest rate should not the reason to restrain us from examining the price change due to time passage. As Fabozzi (2007) [^{3}. This is the second reason that we thoroughly examine how time passage affects bond prices.

The results of this study should be interesting not only to scholars studying fixed income securities, but also to asset managers with clients holding bonds. As we show in Sections 2 and 3 in the paper, for premium bonds, their value decreases toward the par at an increasing rate over time. The quantitative easing policies initiated by the Federal Reserve, Bank of England, European Central Bank, and Bank of Japan as a response to the 2008 financial crisis have driven the global interest rates to historical lows. As a result, most bonds issued prior to 2008 (which usually carry coupon rates higher than the current interest rates), have become premium bonds in the past few years. As these bonds approach maturity, their prices will move lower over time even as the central banks continue to maintain the interest rate at the current level. Furthermore, since the prices of these premium bonds decrease at an increasing rate, the decrease in value for these bonds will accelerate as they approach maturity in the next few years. As many individual bond investors do not understand the time passage effect on bond prices, asset managers with clients investing in individual bonds or bond funds are likely to be questioned by their client as the clients see the value of their bonds declining at an increasing rate. The analyses of the bond price path will provide to asset managers a tool to explain to their clients why the value of these bonds declines over time. This is the third reason for the study.

The rest of the paper is organized as follows. In Section 2, we present a mathematical proof to show how both the premium and the discount will decrease at an increasing rate as the bond approaches maturity. In Section 3, we present numerical examples to illustrate our findings. In Section 4 we discuss the implications of the findings in the paper. We conclude the paper in Section 5.

In this section, we will present a mathematical proof to show that the price of a premium bond will decline toward face value at an increasing rate over time, and the price of a discount bond will rise toward face value, also at an increasing rate as it approaches maturity.

The way we prove the arguments is as follows: we will first show that the price of a premium bond increases at a decreasing rate as the bond’s term to maturity increases. However, in practice, a bond’s term to maturity decreases over time. Consequently, as a bond approaches maturity, the price of a premium decreases at an in- creasing rate. Similarly, for a discount bond we will show that as term to maturity increases, the price decreases at a decreasing rate. Therefore, as the bond approaches the maturity and the term to maturity decreases, the price of a discount bond increases at an increasing rate.

We now formally present the mathematical proof:

Let T be the term to maturity of the bond (and thus T decreases when a bond moves toward maturity as time passes by), cr be the coupon rate, i be the market rate of interest, and F be the face (par) value of the bond. Then the price of the bond, P, is determined by the equation:

Equation (3) shows that for a par bond, the price is a constant (equal to the par value), and the bond price path toward maturity for a par bond is a horizontal straight line.

Equation (4) shows that for a premium bond, the price is an increasing function of its term to maturity. As the bond approaches maturity, the term to maturity T decreases. Consequently, the price for a premium bond de- creases as it approaches maturity.

Equation (5) shows that for a discount bond, the price is a decreasing function of term to maturity. As a bond approaches maturity, the term to maturity T decreases. As a result, the price for a discount bond increases as it approaches maturity.

To find out whether the bond price path for a premium bond is decreasing at an increasing rate or at a de- creasing rate, and whether the bond price path for a discount bond is increasing at an increasing rate or at a de- creasing rate, we differentiate Equation (2) with respect to T again and obtain:

Combining Equations (4) and (7), the results show that the price for a premium bond is an increasing function with respect to T at a decreasing rate. However, as a bond approaches maturity, the term to maturity T decreases. Therefore, the price path for a premium bond toward maturity is decreasing at an increasing rate.

Equation (5) suggests that the price of a discount bond is a decreasing function of T. However, Equation (8) suggests that the downward-sloping curve becomes less negative as T increases. Therefore Equations (5) and (8) suggest that the price for a discount bond is decreasing with respect to T at a decreasing rate. However, as a bond approaches maturity, the term to maturity T decreases. Therefore, the price path for a discount bond toward maturity is increasing at an increasing rate.

In the next section, we provide a few numerical examples and graphical representations to illustrate the mathematical proofs.

In

In the table, we can observe the prices for premium bonds (bonds with coupon rates of 12% and 10%) are increasing functions of term to maturity at a decreasing rate. For example, for the 12% bond the price increases by $37.04 when term to maturity increases from 0 to 1 year, but the price increases by only $8.59 when the term to maturity increases from 19 to 20 years. Since the price is increasing at a decreasing rate, it would not increase

indefinitely as term to maturity approaches infinity. The price is equal to

(known as a perpetual bond) according to Equation (1), or $1500 for a 12% bond when the market rate of interest is 8%.

Since the price for a premium bond increases at a decreasing rate as term to maturity increases, the price path toward maturity date, which is the price movement with a decrease in term to maturity, is decreasing with an increasing rate.

Similarly, the prices for discount bonds (bonds with coupon rates of 6% and 4%) are decreasing functions of term to maturity at a decreasing rate. For example, for the 4% bond the price decreases by $37.04 when term to maturity increases from 0 to 1 year, but the price decreases by only $8.59 when the term to maturity increases from 19 to 20 years. Since the price is decreasing at a decreasing rate, it does not decrease indefinitely as term to maturity approaches infinity. The price for a perpetual discount bond (with term to maturity approaches to in-

. The prices for bonds with a face value of $1000, coupon rates of 12%, 10%, 8%, 6%, and 4% respectively (assum- ing annual payment), and terms to maturity from 0 to 20 years when the market rate of interest is 8%.

Term to Maturity | Coupon Rate | ||||
---|---|---|---|---|---|

12% | 10% | 8% | 6% | 4% | |

0 | $1000.00 | $1000.00 | $1000 | $1000.00 | $1000.00 |

1 | $1037.04 | $1018.52 | $1000 | $981.48 | $962.96 |

2 | $1071.33 | $1035.67 | $1000 | $964.33 | $928.67 |

3 | $1103.08 | $1051.54 | $1000 | $948.46 | $896.92 |

4 | $1132.49 | $1066.24 | $1000 | $933.76 | $867.51 |

5 | $1159.71 | $1079.85 | $1000 | $920.15 | $840.29 |

6 | $1184.92 | $1092.46 | $1000 | $907.54 | $815.08 |

7 | $1208.25 | $1104.13 | $1000 | $895.87 | $791.75 |

8 | $1229.87 | $1114.93 | $1000 | $885.07 | $770.13 |

9 | $1249.88 | $1124.94 | $1000 | $875.06 | $750.12 |

10 | $1268.40 | $1134.20 | $1000 | $865.80 | $731.60 |

11 | $1285.56 | $1142.78 | $1000 | $857.22 | $714.44 |

12 | $1301.44 | $1150.72 | $1000 | $849.28 | $698.56 |

13 | $1316.15 | $1158.08 | $1000 | $841.92 | $683.85 |

14 | $1329.77 | $1164.88 | $1000 | $835.12 | $670.23 |

15 | $1342.38 | $1171.19 | $1000 | $828.81 | $657.62 |

16 | $1354.05 | $1177.03 | $1000 | $822.97 | $645.95 |

17 | $1364.87 | $1182.43 | $1000 | $817.57 | $635.13 |

18 | $1374.88 | $1187.44 | $1000 | $812.56 | $625.12 |

19 | $1384.14 | $1,192.07 | $1000 | $807.93 | $615.86 |

20 | $1392.73 | $1,196.36 | $1000 | $803.64 | $607.27 |

Bond prices as a function of term to maturity: the face value is $1000, coupon rates are 12%, 10%, 8%, 6%, and 4% respectively (assuming annual payment), and terms to maturity are from 0 to 20 years when the market rate of interest is 8%

finity) is

Since the price for a discount bond decreases at a decreasing rate as term to maturity increases, the price path toward maturity date, which is the price movement with a decrease in term to maturity, is increasing with an increasing rate.

To enhance the understanding of the effect of time passage on bond prices, we construct

The results in

As the bond approaches maturity, the price approaches the face value and the premium (defined as the dollar amount above the face value) declines purely due to time passage without any change in interest rate, we refer to the decline as time decay in bond premium.

Similarly, the results in

. The convergence of bond prices toward face value as they approaches maturity date. The bonds have coupon rates of 12%, 10%, 8%, 6%, and 4% respectively and a face value of $1000. We assume all the bonds start with an initial term to maturity of 20 years, the market rate of interest is 8%, and interests are paid annually.

Term Remaining Until Maturity | Coupon Rate | ||||
---|---|---|---|---|---|

12% | 10% | 8% | 6% | 4% | |

20 | $1392.73 | $1196.36 | $1000 | $803.64 | $607.27 |

19 | $1384.14 | $1192.07 | $1000 | $807.93 | $615.86 |

18 | $1374.88 | $1187.44 | $1000 | $812.56 | $625.12 |

17 | $1364.87 | $1182.43 | $1000 | $817.57 | $635.13 |

16 | $1354.05 | $1177.03 | $1000 | $822.97 | $645.95 |

15 | $1342.38 | $1171.19 | $1000 | $828.81 | $657.62 |

14 | $1329.77 | $1164.88 | $1000 | $835.12 | $670.23 |

13 | $1316.15 | $1158.08 | $1000 | $841.92 | $683.85 |

12 | $1301.44 | $1150.72 | $1000 | $849.28 | $698.56 |

11 | $1285.56 | $1142.78 | $1000 | $857.22 | $714.44 |

10 | $1268.40 | $1134.20 | $1000 | $865.80 | $731.60 |

9 | $1249.88 | $1124.94 | $1000 | $875.06 | $750.12 |

8 | $1229.87 | $1114.93 | $1000 | $885.07 | $770.13 |

7 | $1208.25 | $1104.13 | $1000 | $895.87 | $791.75 |

6 | $1184.92 | $1092.46 | $1000 | $907.54 | $815.08 |

5 | $1159.71 | $1079.85 | $1000 | $920.15 | $840.29 |

4 | $1132.49 | $1066.24 | $1000 | $933.76 | $867.51 |

3 | $1103.08 | $1051.54 | $1000 | $948.46 | $896.92 |

2 | $1071.33 | $1035.67 | $1000 | $964.33 | $928.67 |

1 | $1037.04 | $1018.52 | $1000 | $981.48 | $962.96 |

0 | $1000.00 | $1000.00 | $1000 | $1000.00 | $1000.00 |

As the bond approaches maturity, the price approaches the face value and the discount (defined as the dollar amount below the face value) declines purely due to time passage without any change in interest rate, we refer to the decline as time decay in bond discount.

The findings in the paper in and by itself are interesting and important. As we discussed, the change in bond prices can always be decomposed into at least two components: one component due to time passage without taking into account the change in interest rate, and one component due to the change in interest rate. To fully understand bond pricing, it is necessary to understand the driving forces behind both components. The findings in this paper contribute to the understanding of the first component.

Moreover, the findings in the paper can also enhance the management of fixed income securities and the com- munication between asset managers and their clients. As we have shown in the paper, the value of premium bonds declines at an increasing rate as they approach maturity. To respond to the 2008 financial crisis, central banks worldwide have taken programs in the past few years. These programs have driven interest rates to historical lows and many bonds issued before 2008 (which carry coupon rates higher than the current interest rates) have become premium bonds. As these bonds approach maturity in the next few years, their value will decline. Moreover, because the price of premium bonds declines at an increasing rate, the decline of these bonds’ value will accelerate even central banks maintain the current policy unchanged. As most investors do not fully understand the time decay of bond premium, they may unfairly blame asset managers for the decline in bond value even the decline is purely due to the passage of time and the central banks’ monetary policies. A better understanding of the price path effect on bond prices will help asset managers manage bond portfolios more effectively and enhance the communications between asset manager and their clients.

Bond prices as a function of term remaining until maturity: the face value is $1000, coupon rates are 12%, 10%, 8%, 6%, and 4% respectively (assuming annual payment), and all the bonds start with an initial term to maturity of 20 years when the market rate of interest is 8%

In this paper, we show that as bonds approach maturity, the price of a premium bond will decline to the face value at an increasing rate, and the price of a discount bond will rise to the face value at an increasing rate. As both the prices of premium and discount bonds move toward face value, the premium and the discount will decrease over time even when interest rate remains unchanged. We refer to the decrease purely caused by time passage as time decay in premium and discount. We present a mathematical proof to show that the time decay accelerates over time. We also provide numerical examples and graphical representations to illustrate the time passage effect on bond prices. Finally we discuss the implications of the findings to bond investors and asset managers.