Negative Convexity
Negative convexity exists when the shape of a bond's yield curve is concave. While the exact formula for convexity is rather complicated, an approximation for convexity can be found using the following simplified formula: Convexity approximation = (P(+) + P(-) - 2 x P(0)) / (2 x P(0) x dy ^2) P(+) = bond price when interest rate is decreased P(-) = bond price when interest rate is increased P(0) = bond price dy = change in interest rate in decimal form For example, assume a bond is currently priced at $1,000. In this example, the convexity adjustment would be: Convexity adjustment = 25 x 100 x (0.01)^2 = 0.25 Finally, using duration and convexity to obtain an estimate of a bond's price for a given change in interest rates, an investor can use the following formula: Bond price change = duration x yield change + convexity adjustment For example, with a callable bond, as interest rates fall, the incentive for the issuer to call the bond at par increases; therefore, its price will not rise as quickly as the price of a non-callable bond. A bond's convexity is the rate of change of its duration, and it is measured as the second derivative of the bond's price with respect to its yield.
What Is Negative Convexity?
Negative convexity exists when the shape of a bond's yield curve is concave. A bond's convexity is the rate of change of its duration, and it is measured as the second derivative of the bond's price with respect to its yield. Most mortgage bonds are negatively convex, and callable bonds usually exhibit negative convexity at lower yields.
Understanding Negative Convexity
A bond's duration refers to the degree to which a bond's price is impacted by the rise and fall of interest rates. Convexity demonstrates how the duration of a bond changes as the interest rate changes. Typically, when interest rates decrease, a bond's price increases. However, for bonds that have negative convexity, prices decrease as interest rates fall.
For example, with a callable bond, as interest rates fall, the incentive for the issuer to call the bond at par increases; therefore, its price will not rise as quickly as the price of a non-callable bond. The price of a callable bond might actually drop as the likelihood that the bond will be called increases. This is why the shape of a callable bond's curve of price with respect to yield is concave or negatively convex.
Convexity Calculation Example
Since duration is an imperfect price change estimator, investors, analysts, and traders calculate a bond's convexity. Convexity is a useful risk-management tool and is used to measure and manage a portfolio's exposure to market risk. This helps to increase the accuracy of price-movement predictions.
While the exact formula for convexity is rather complicated, an approximation for convexity can be found using the following simplified formula:
Convexity approximation = (P(+) + P(-) - 2 x P(0)) / (2 x P(0) x dy ^2)
P(+) = bond price when interest rate is decreased
P(-) = bond price when interest rate is increased
P(0) = bond price
dy = change in interest rate in decimal form
For example, assume a bond is currently priced at $1,000. If interest rates are decreased by 1%, the bond's new price is $1,035. If interest rates are increased by 1%, the bond's new price is $970. The approximate convexity would be:
Convexity approximation = ($1,035 + $970 - 2 x $1,000) / (2 x $1,000 x 0.01^2) = $5 / $0.2 = 25
When applying this to estimate a bond's price using duration a convexity adjustment must be used. The formula for the convexity adjustment is:
Convexity adjustment = convexity x 100 x (dy)^2
In this example, the convexity adjustment would be:
Convexity adjustment = 25 x 100 x (0.01)^2 = 0.25
Finally, using duration and convexity to obtain an estimate of a bond's price for a given change in interest rates, an investor can use the following formula:
Bond price change = duration x yield change + convexity adjustment
Related terms:
Above Par
Above par is a term used to describe the price of a bond when it is trading above its face value. This occurs when interest rates have declined so that newly-issued bonds carry lower coupon rates. read more
At Par
At par means that a bond, preferred stock, or other debt instrument is trading at its face value. It will normally trade above par or under par. read more
Bond : Understanding What a Bond Is
A bond is a fixed income investment in which an investor loans money to an entity (corporate or governmental) that borrows the funds for a defined period of time at a fixed interest rate. read more
Callable Bond
A callable bond is a bond that can be redeemed (called in) by the issuer prior to its maturity. read more
Convexity Adjustment
A convexity adjustment is a change required to be made to a forward interest rate or yield to get the expected future interest rate or yield. read more
Convexity
Convexity is a measure of the relationship between bond prices and bond yields that shows how a bond's duration changes with interest rates. read more
Derivative
A derivative is a securitized contract whose value is dependent upon one or more underlying assets. Its price is determined by fluctuations in that asset. read more
Duration
Duration indicates the years it takes to receive a bond's true cost, weighing in the present value of all future coupon and principal payments. read more
Effective Duration
Effective duration is a calculation for bonds with embedded options that takes into account that expected cash flows fluctuate as interest rates change. read more
Fixed Income & Examples
Fixed income refers to assets and securities that bear fixed cash flows for investors, such as fixed rate interest or dividends. read more