Interpreting Credit Spread

Interpreting Credit Spread

A corporate bond yield is made up of the benchmark yield and the credit spread.

  1. Benchmark yield

    The benchmark yield is affected by macroeconomic factors, including:

    • The expected inflation rates.
    • The expected real rate of return.
    • Risk aversion for uncertainty regarding inflation.

  2. Credit spread

    The credit spread incorporates microeconomic factors related to the corporate issuer and the specific issue. These factors include

    • The expected loss from default.
    • Liquidity.
    • Taxation.
    • Risk aversion for uncertainty regarding credit risk, liquidity, and tax factors.

The credit valuation adjustment (CVA) is designed to capture counterparty credit risk, liquidity costs, funding costs, and taxation effects in valuing derivatives.

Credit spreads vary with the investor’s changing beliefs about the expected probability of default and recovery rates. The expectations of the economic state influence these beliefs. For example, when the economy is expected to slow down, there will be an expectation of higher defaults and lower recovery rates.

Example: Credit Spread

A three-year, 5% annual coupon corporate bond is currently priced at $105. The Treasury yield curve is flat at 3%. Comparable bonds have a hazard rate of 2% and a recovery rate of 30%.

  1. The credit spread of this bond is closest to:

    Credit spread is calculated in the following steps:

    • Determine the value of the bond given no default (VND).
    • Calculate the credit valuation adjustment of the bond (CVA).
    • Determine the fair value of the bond, where fair value = VND – CVA.
    • Determine the yield to maturity (YTM) of the bond that results in the fair value.
    • Calculate the credit spread using the relationship:
      • Credit spread = YTM of risky bond – YTM of benchmark bond.

    VND

    The bonds VND is calculated as:

    $$ VND=\frac{5}{1.03}+\frac{5}{{1.03}^2}+\frac{105}{{1.03}^3}=$105.66 $$

    CVA

    The workings of the CVA are shown in the following table:

    $$ \begin{array}{c|c|c|c|c|c|c|c} \textbf{Year} & \textbf{EE} & \textbf{LGD} & \textbf{PD} & \textbf{PS} & \textbf{EL} & \textbf{DF} & \textbf{PV} \\ & & & & & & & \textbf{of} \\ & & & & & & & \textbf{EL} \\ \hline 1 & 108.83 & 76.18 & 2.0000\% & 98.0000\% & 1.5236 & 0.9709 & 1.4792 \\ \hline 2 & 106.94 & 74.86 & 1.9600\% & 96.0400\% & 1.4672 & 0.9426 & 1.3830 \\ \hline 3 & 105.00 & 73.50 & 1.9208\% & 94.1192\% & 1.4118 & 0.9151 & 1.2920 \\ \hline & & & & & & \textbf{CVA} & \bf{4.15} \end{array} $$

    $$ \begin{align*} \text{The fair value of the bond} & = VND-CVA \\ \text{Fair value} &=$105.66 – 4.15=$101.51 \end{align*} $$

    Notice that the bond’s market price is $105, which is greater than its fair value ($101.51). Thus, we can conclude that the bond is overvalued.

    YTM

    Bond’s YTM is determined as:

    $$ \begin{align*} 101.51 &=\frac{5}{1+YTM}+\frac{5}{\left(1+YTM\right)^2}+\frac{105}{\left(1+YTM\right)^3} \\ YTM & = 4.45\% \end{align*} $$

    Credit spread

    $$ \begin{align*} \text{Credit spread} & =\text{YTM of the risky bond}\ – \text{Benchmark YTM} \\ & = 4.45\%-3.00\%=1.45\% = 145\text{bps} \end{align*} $$

  2. Ryker Yash, a junior credit analyst, has projected that the expected economic recovery will half the probability of default and double the recovery rate. Yash’s instinct is that the decrease in default probability will narrow the credit spread more relative to doubling the recovery rate. We can check whether his intuition is correct:

    1. Decreasing the default probability to 1% while maintaining the recovery rate at 30%

      VND remains constant at $105.66

      Revised CVA = 2.10

      Fair value = VND – CVA

      Fair value = $105.66 – $2.10 = $103.56

      YTM of the bond:

      $$ 103.56\ =\frac{5}{1+YTM}+\frac{5}{\left(1+YTM\right)^2}+\frac{105}{\left(1+YTM\right)^3} $$

      YTM = 3.72%

      Credit spread = 3.72% – 3.00% = 0.72% = 72bps

      Credit spread has roughly halved as a result of decreasing the probability of default by 50%.  

    2. Doubling the default probability to 60%, with maintaining the default probability at 2%.

      VND remains constant at $105.66

      Revised CVA = 2.37

      Fair value = VND – CVA

      Fair value = $105.66 – $2.37 = $103.29

      YTM of the bond:

      $$ 103.29 =\frac{5}{1+YTM}+\frac{5}{\left(1+YTM\right)^2}+\frac{105}{\left(1+YTM\right)^3} $$

      YTM = 3.82%

      Credit spread = 3.82% – 3.00% = 0.82% = 82bps

      Notice that halving the default probability decreases the credit spread to 72 bps while doubling the recovery rate decreases the credit spread to 82 bps.

      Thus halving the default probability has a greater impact on the credit spread than doubling the recovery rate.

Question

Consider a fixed 7% annual coupon, a three-year corporate bond with a par value of £1,000. The risk-neutral probability of default (the hazard rate) for each date for a bond is estimated to be 1.50%, and the recovery rate is 40%. The benchmark yield curve is flat at 2.50%. Due to the expected economic deterioration, a credit analyst decides to double the bond’s default probability and half the recovery rate.

The new credit spread of the bond relative to the original spread is most likely:

  1. Lower.
  2. Higher.
  3. The same as it was.

Solution

The correct answer is B.

Initial credit spread

$$\begin{align*}\text{Expected return} &=\text{Yield to maturity (YTM)}+ {\Delta}\%P \\ VND & =\frac{70}{1.025}+\frac{70}{{1.025}^2}+\frac{1,070}{{1.025}^3}=£ 1,128.52\end{align*} $$

CVA

$$ \begin{array}{c|c|c|c|c|c|c|c} \textbf{Year} & \textbf{EE} & \textbf{LGD} & \textbf{PD} & \textbf{PS} & \textbf{EL} & \textbf{DF} & \textbf{PV} \\ & & & & & & & \textbf{of} \\ & & & & & & & \textbf{EL} \\ \hline 1 & 1,156.73 & 694.04 & 1.5000\% & 98.500\% & 10.4106 & 0.9756 & 10.1567 \\ \hline 2 & 1,113.90 & 668.34 & 1.4775\% & 97.023\% & 9.8747 & 0.9518 & 9.3989 \\ \hline 3 & 1,070.00 & 642.00 & 1.4553\% & 95.567\% & 9.3433 & 0.9286 & 8.6762 \\ \hline & & & & & & \textbf{CVA} & \bf{28.23} \end{array} $$

$$ \text{Fair value} = 1,128.52 – 28.23 = £1,100.29 $$

YTM is calculated such that:

$$\begin{align*} 1,100.29& =\frac{70}{1+YTM}+\frac{70}{\left(1+YTM\right)^2}+\frac{1070}{\left(1+YTM\right)^3} \\ YTM &= 3.425\%\end{align*} $$

$$\begin{align*}\text{Credit spread} & = \text{YTM of the risky bond} – \text{Benchmark YTM} \\&= 3.425\% -2.50\% =0.925\% = 92.5 \text{bps}\end{align*}$$

New credit spread

VND = £1,128.52

CVA using new default probability and recovery rate = £74.20

Fair value = VND – CVA

Fair value = £1,128.52 – £74.20 = £1,054.32

YTM is calculated such that:

$$ 1,054.32 =\frac{70}{1+YTM}+\frac{70}{\left(1+YTM\right)^2}+\frac{1070}{\left(1+YTM\right)^3} $$

YTM = 5.00%

Credit spread = 5.00% – 2.500% = 2.50% = 250bps.

The new credit spread is, therefore, higher relative to the initial credit spread. (250bps>92.5bps)

Reading 31: Credit Analysis Models

LOS 31 (f) Interpret changes in a credit spread.

Shop CFA® Exam Prep

Offered by AnalystPrep

Featured Shop FRM® Exam Prep Learn with Us

    Subscribe to our newsletter and keep up with the latest and greatest tips for success
    Shop Actuarial Exams Prep Shop Graduate Admission Exam Prep


    Daniel Glyn
    Daniel Glyn
    2021-03-24
    I have finished my FRM1 thanks to AnalystPrep. And now using AnalystPrep for my FRM2 preparation. Professor Forjan is brilliant. He gives such good explanations and analogies. And more than anything makes learning fun. A big thank you to Analystprep and Professor Forjan. 5 stars all the way!
    michael walshe
    michael walshe
    2021-03-18
    Professor James' videos are excellent for understanding the underlying theories behind financial engineering / financial analysis. The AnalystPrep videos were better than any of the others that I searched through on YouTube for providing a clear explanation of some concepts, such as Portfolio theory, CAPM, and Arbitrage Pricing theory. Watching these cleared up many of the unclarities I had in my head. Highly recommended.
    Nyka Smith
    Nyka Smith
    2021-02-18
    Every concept is very well explained by Nilay Arun. kudos to you man!
    Badr Moubile
    Badr Moubile
    2021-02-13
    Very helpfull!
    Agustin Olcese
    Agustin Olcese
    2021-01-27
    Excellent explantions, very clear!
    Jaak Jay
    Jaak Jay
    2021-01-14
    Awesome content, kudos to Prof.James Frojan
    sindhushree reddy
    sindhushree reddy
    2021-01-07
    Crisp and short ppt of Frm chapters and great explanation with examples.