What Is Implied Volatility (IV)?
The term implied volatility refers to a metric that captures the market’s view of the likelihood of changes in a given security’s price. Investors can use implied volatility to project future moves and supply and demand, and often employ it to price options contracts. Implied volatility isn’t the same as historical volatility (also known as realized volatility or statistical volatility), which measures past market changes and their actual results.
- Implied volatility is the market’s forecast of a likely movement in a security’s price.
- IV is often used to price options contracts where high implied volatility results in options with higher premiums and vice versa.
- Supply and demand and time value are major determining factors for calculating implied volatility.
- Implied volatility usually increases in bearish markets and decreases when the market is bullish.
- Although IV helps quantify market sentiment and uncertainty, it is based solely on prices rather than fundamentals.
How Implied Volatility (IV) Works
Implied volatility is the market’s forecast of a likely movement in a security’s price. It is a metric used by investors to estimate future fluctuations (volatility) of a security’s price based on certain predictive factors. Implied volatility is denoted by the symbol σ (sigma). It can often be thought to be a proxy of market risk. It is commonly expressed using percentages and standard deviations over a specified time horizon.
Implied Volatility and Options
Implied volatility is one of the deciding factors in the pricing of options. Buying options contracts allow the holder to buy or sell an asset at a specific price during a pre-determined period. Implied volatility approximates the future value of the option, and the option’s current value is also taken into consideration. Options with high implied volatility have higher premiums and vice versa.
Implied volatility also affects the pricing of non-option financial instruments, such as an interest rate cap, which limits the amount an interest rate on a product can be raised.
Implied Volatility and Option Pricing Models
Implied volatility can be determined by using an option pricing model. It is the only factor in the model that isn’t directly observable in the market. Instead, the mathematical option pricing model uses other factors to determine implied volatility and the option’s premium.
This is a widely used and well-known options pricing model, factors in current stock price, options strike price, time until expiration (denoted as a percent of a year), and risk-free interest rates. The Black-Scholes Model is quick in calculating any number of option prices.
But the model cannot accurately calculate American options, since it only considers the price at an option’s expiration date. American options are those that the owner may exercise at any time up to and including the expiration day.
This model uses a tree diagram with volatility factored in at each level to show all possible paths an option’s price can take, then works backward to determine one price. The benefit of the Binomial Model is that you can revisit it at any point for the possibility of early exercise.
Early exercise is executing the contract’s actions at its strike price before the contract’s expiration. Early exercise only happens in American-style options. However, the calculations involved in this model take a long time to determine, so this model isn’t the best in rushed situations.
Factors Affecting Implied Volatility
Just as with the market as a whole, implied volatility is subject to unpredictable changes. Supply and demand are major determining factors for implied volatility. When an asset is in high demand, the price tends to rise. So does the implied volatility, which leads to a higher option premium due to the risky nature of the option.
The opposite is also true. When there is plenty of supply but not enough market demand, the implied volatility falls, and the option price becomes cheaper.
Another premium influencing factor is the time value of the option, or the amount of time until the option expires. A short-dated option often results in low implied volatility, whereas a long-dated option tends to result in high implied volatility. The difference lays in the amount of time left before the expiration of the contract. Since there is a lengthier time, the price has an extended period to move into a favorable price level in comparison to the strike price.
Pros and Cons of Using Implied Volatility
Implied volatility helps to quantify market sentiment. It estimates the size of the movement an asset may take. However, as mentioned earlier, it does not indicate the direction of the movement. Option writers will use calculations, including implied volatility, to price options contracts. Also, many investors will look at the IV when they choose an investment. During periods of high volatility, they may choose to invest in safer sectors or products.
Implied volatility does not have a basis on the fundamentals underlying the market assets, but is based solely on price. Also, adverse news or events such as wars or natural disasters may impact the implied volatility.
- Quantifies market sentiment, uncertainty
- Help set options prices
- Determines trading strategy
- Based solely on prices, not fundamentals
- Sensitive to unexpected factors, news events
- Predicts movement, but not the direction
Traders and investors use charting to analyze implied volatility. One especially popular tool is the Chicago Board Options Exchange Volatility Index (VIX). Created by the Chicago Board Options Exchange (CBOE), the VIX is a real-time market index. The index uses price data from near-dated, near-the-money S&P 500 index options to project expectations for volatility over the next 30 days.1
Investors can use the VIX to compare different securities or to gauge the stock market’s volatility as a whole, and form trading strategies accordingly.
Why Is Implied Volatility Important?
Future volatility is one of the inputs needed for options pricing models. The future, however, is unknown. The actual volatility levels revealed by options prices are therefore the market’s best estimate of those assumptions. If somebody has a different view on future volatility relative to the implied volatility in the market, they can buy options (if they think future volatility will be higher) or sell options (if it will be lower).
How Is Implied Volatility Computed?
Since implied volatility is embedded in an option’s price, one needs to re-arrange an options pricing model formula to solve for volatility instead of the price (since the current price is known in the market).
How Do Changes in Implied Volatility Affect Options Prices?
Regardless of whether an option is a call or put, its price, or premium, will increase as implied volatility increases. This is because an option’s value is based on the likelihood that it will finish in-the-money (ITM). Since volatility measures the extent of price movements, the more volatility there is the larger future price movements ought to be and, therefore, the more likely an option will finish ITM.
Will All Options in a Series Have the Same Implied Volatility?
No, not necessarily. Downside put options tend to be more in demand by investors as hedges against losses. As a result, these options are often bid higher in the market than a comparable upside call (unless sometimes if the stock is a takeover target). As a result, there is more implied volatility in options with downside strikes than on the upside. This is known as the volatility skew or “smile.”