PHY 6646 - Quantum Mechanics II - Spring 2011 Homework set # 7, due February 23 1. Problem 16.2.7 in Shankar’s book. 2. A particle of mass µ is in linear motion in the potential V (x) = 5kx = −kx for x > 0 for x < 0 . (0.1) with k positive. Use the WKB approximation to estimate the energies of the states of the particle. 3. A particle of mass µ is in linear motion in a potential V (x) with the following properties: V (x) is continuous everywhere except x = 0, goes to zero when x → −∞, jumps from V− at x → 0− to V+ at x → 0+ , and goes to V∞ when x → +∞. The particle is incident on the potential from the left with energy E larger than the maximum value of V (x). Assume the WKB approximation is valid everywhere except at x = 0. a. Draw a graph of such a potential. b. In the neighborhood of x = 0, the wavefunction has the form Ψ(x) = Aeik− x + Be−ik− x = Ceik+ x for x < 0 for x > 0. (0.2) Justify this form of the wavefunction near x = 0 and give expressions for k− and k+ . What jump conditions must Ψ(x) satisfy at x = 0? What relations between A, B and C are implied by the jump conditions? c. What are the reflection and transmission coefficients of the potential barrier V (x) taken as a whole? (Hint: The reflection and transmission coefficients do not depend on V∞ .) 4. Problem 17.2.4 in Shankar’s book. 5. Problem 17.2.5 in Shankar’s book. 1