= max(0, S(0) -K) (limited liability) 3) C[S(0),T;K] <= S(0) (trivial)"> = max(0, S(0) -K) (limited liability) 3) C[S(0),T;K] <= S(0) (trivial)">

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Option Valuation: basic concepts

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1 Option Valuation: basic concepts
Value boundaries Simple arbitrage relationships Intuition for the role of volatility S. Mann, 2010 S. Mann, 2010

2 Call Option Valuation "Boundaries"
Value Option value must be within this region Intrinsic Value - Value of Immediate exercise: S - K K S (asset price) Define: C[S(0),T;K] =Value of American call option with strike K, expiration date T, and current underlying asset value S(0) Result proof 1) C[0,T; K] = (trivial) 2) C[S(0),T;K] >= max(0, S(0) -K) (limited liability) 3) C[S(0),T;K] <= S(0) (trivial)

3 European Call lower bound (asset pays no dividend)
“Pure time value”: K - B(0,T)K Option Value Option value must be within this region Intrinsic value: S - K KB(0,T) K S (asset price) Define: c[S(0),T;K] =Value of European call (can be exercised only at expiration) value at expiration Position cost now S(T) < K S(T) >K long call + T-bill c[S(0),T;K] + KB(0,T) K S(T) long stock S(0) S(T) S(T) position A dominates, so c[S(0),T;K] + KB(0,T) >= S(0) thus 4) c[S(0),T;K] >= Max(0, S(0) - KB(0,T)

4 Example: Lower bound on European Call
“Pure time value”: = $1.09 Option Value Option value must be within this region Intrinsic value: =S(0) S (asset price) Example: S(0) =$55. K=$50. T= 3 months. 3-month simple rate=4.0%. B(0,3) = 1/(1+.04(3/12)) = KB(0,3) = Lower bound is S(0) - KB(0,T) = 55 – = $5.50. What if C55 = $5.25? Value at expiration Position cash flow now S(T) <= $50 S(T) > $50 buy call - $ S(T) - $50 buy bill paying K short stock S(T) S(T) Total $ S(T) >= 0 0

5 American and European calls on assets without dividends
5) American call is worth at least as much as European Call C[S(0),T;K] >= c[S(0),T;K] (proof trivial) 6) American call on asset without dividends will not be exercised early. C[S(0),T;K] = c[S(0),T;K] proof: C[S(0),T;K] >= c[S(0),T;K] >= S(0) - KB(0,T) so C[S(0),T;K] >= S(0) - KB(0,T) >= S(0) - K and C[S(0),T;K] >= S(0) - K Call is: worth more alive than dead Early exercise forfeits time value 7) longer maturity cannot have negative value: for T1 > T2: C(S(0),T1;K) >= C(S(0),T2;K)

6 Call Option Value Option Value lower bound 0 K S
No-arbitrage boundary: C >= max (0, S - PV(K)) Intrinsic Value: max (0, S-K) lower bound K S

7 Volatility Value : Call option
Low volatility asset Call payoff High volatility asset K S(T) (asset value)

8 Volatility Value : Call option
Example: Equally Likely "States of World" "State of World" Expected Position Bad Avg Good Value Stock A Stock B Calls w/ strike=30: Call on A: Call on B:

9 Discrete-time lognormal evolution:
S. Mann, 2010

10 Put Option Valuation "Boundaries"
K Option value must be within this region Option Value Intrinsic Value - Value of Immediate exercise: K - S K S (asset price) Define: P[S(0),T;K] =Value of American put option with strike K, expiration date T, and current underlying asset value S(0) Result proof 8) P[0,T; K] = K (trivial) 9) P[S(0),T;K] >= max(0, K - S(0)) (limited liability) 10) P[S(0),T;K] <= K (trivial)

11 European Put lower bound (asset pays no dividend)
KB(0,T) Option Value Option value must be within this region Negative “Pure time value”: KB(0,T) - K Intrinsic value: K - S KB(0,T) K S(0) Define: p[S(0),T;K] =Value of European put (can be exercised only at expiration) value at expiration position cost now S(T) < K S(T) >K A) long put + stock p[S(0),T;K] + S(0) K S(T) B) long T-bill KB(0,T) K K position A dominates, so p[S(0),T;K] + S(0) >= KB(0,T) thus 11) p[S(0),T;K] >= max (0, KB(0,T)- S(0))

12 American puts and early exercise
KB(0,T) Option Value Option value must be within this region Negative “Pure time value”: KB(0,T) - K Intrinsic value: K - S KB(0,T) K S(0) Define: P[S(0),T;K] =Value of American put (can be exercised at any time) 12) P[S(0),T;K] >= p[S(0),T;K] (proof trivial) However, it may be optimal to exercise a put prior to expiration (time value of money), hence American put price is not equal to European put price. Example: K=$25, S(0) = $1, six-month simple rate is 9.5%. Immediate exercise provides $24 ( (6/12)) = $25.14 > $25


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