Suppose that the ground vibrational state of a molecule is modelled by using the particle-in-a-box wavefunction ψ0 = (2/L)1/2 sin(πx/L) for 0 ≤ x ≤ L and 0 elsewhere. Calculate the Franck–Condon factor for a transition to a vibrational state described by the wavefunction ψ′ = (2/L)1/2 sin{π(x −L/2)/L}for L/2 ≤ x ≤ 3L/2 and 0 elsewhere.

Suppose that the ground vibrational state of a molecule is modelled by using the particle-in-a-box wavefunction ψ0 = (2/L)1/2 sin(πx/L) for 0 ≤ x ≤ L and 0 elsewhere. Calculate the Franck–Condon factor for a transition to a vibrational state described by the wavefunction ψ′ = (2/L)1/2 sin{π(x −L/2)/L}for L/2 ≤ x ≤ 3L/2 and 0 elsewhere.

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Question

Suppose that the ground vibrational state of a molecule is modelled by using the particle-in-a-box wavefunction ψ₀ = (2/L)^1/2 sin(πx/L) for 0 ≤ x ≤ L and 0 elsewhere. Calculate the Franck–Condon factor for a transition to a vibrational state described by the wavefunction ψ′ = (2/L)^1/2 sin{π(x −L/2)/L}for L/2 ≤ x ≤ 3L/2 and 0 elsewhere.

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