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BlackScholesVera

  

compute the Vera of a European-style option with given payoff

 

Calling Sequence

Parameters

Description

Examples

References

Compatibility

Calling Sequence

BlackScholesVera(S0, K, T, sigma, r, d, optiontype)

BlackScholesVera(S0, P, T, sigma, r, d)

Parameters

S0

-

algebraic expression; initial (current) value of the underlying asset

K

-

algebraic expression; strike price

T

-

algebraic expression; time to maturity

sigma

-

algebraic expression; volatility

r

-

algebraic expression; continuously compounded risk-free rate

d

-

algebraic expression; continuously compounded dividend yield

P

-

operator or procedure; payoff function

optiontype

-

call or put; option type

Description

• 

The Vera of an option or a portfolio of options measures Rho's sensitivity to volatility.

Vera=σΡ

Vera=2rσS

• 

The BlackScholesVera command computes the Vera of a European-style option with the specified payoff function.

• 

The parameter S0 is the initial (current) value of the underlying asset. The parameter T is the time to maturity in years.

• 

The parameter K specifies the strike price if this is a vanilla put or call option. Any payoff function can be specified using the second calling sequence. In this case the parameter P must be given in the form of an operator, which accepts one parameter (spot price at maturity) and returns the corresponding payoff.

• 

The sigma, r, and d parameters are the volatility, the risk-free rate, and the dividend yield of the underlying asset. These parameters can be given in either the algebraic form or the operator form. The parameter d is optional. By default, the dividend yield is taken to be 0.

Examples

withFinance:

The Rho of an option measures the sensitivity of the option to the risk-free interest rate, r. The Vera of an option measures Rho's sensitivity to volatility, sigma. The following example illustrates the characteristics of the Vera of an option with respect to these two variables.

In this example, the Vera is defined as a function of the risk-free interest rate and volatility.  To compute the Vera of a European call option with strike price 100 maturing in 1 year and with no dividends, we take:

BlackScholesVera100,100,1,σ,r,0,'call'

252ⅇσ2+2r28σ2σ2+2rσ2π

(1)

This can be numerically solved for specific values of the risk-free rate, the dividend yield, and the volatility.

BlackScholesVera100,100,1,0.3,0.05,0,'call'

−40.05125392

(2)

It is also possible to use the generic method in which the option is defined through its payoff function:

BlackScholesVera100,t→maxt100,0,1,σ,r,0

252ⅇσ2+2r28σ2σ2+2rσ2π

(3)

BlackScholesVera100,t→maxt100,0,1,0.3,0.05,0

−40.05125413

(4)

VeraBlackScholesVera100,100,1,σ,r,0,'call'

Vera252ⅇσ2+2r28σ2σ2+2rσ2π

(5)

plot3dVera,σ=0..1,r=0..1

Here are similar examples for the European put option:

BlackScholesVera100,120,1,0.3,0.05,0,'put'

37.10151679

(6)

BlackScholesVera100,t→max120t,0,1,0.3,0.05,0,0

37.10151679

(7)

In this example, the Vera is defined as a function of the underlying asset price S0, and time to maturity, T.  For a European call option, we will assume that the strike price is 100, volatility is 0.10, and the risk-free interest rate of 0.05.  We also assume that this option does not pay any dividends.

VeraBlackScholesVeraS0,100,T,0.1,0.05,0,'call':

plot3dVera,T=1.0..0,S0=0..200,'labels'=Time To Maturity,Spot Price,Value,'colorscheme'=zgradient,Black,White,Red,'thickness'=0

References

  

Hull, J., Options, Futures, and Other Derivatives, 5th. edition. Upper Saddle River, New Jersey: Prentice Hall, 2003.

Compatibility

• 

The Finance[BlackScholesVera] command was introduced in Maple 2015.

• 

For more information on Maple 2015 changes, see Updates in Maple 2015.

See Also

Finance[BlackScholesCharm]

Finance[BlackScholesDelta]

Finance[BlackScholesGamma]

Finance[BlackScholesPrice]

Finance[BlackScholesVanna]

Finance[BlackScholesVeta]

Finance[BlackScholesVomma]

Finance[EuropeanOption]

Finance[ImpliedVolatility]

Finance[LatticePrice]