Author(s)

Junhua Hou, Guangming Si

College of Physics and Information Engineering, Shanxi Normal University, Linfen, China.

The ground-state energy and its derivate of the acoustic polaron in free-standing slab are calculated by using the Huybrechts-like variational approach. The criteria for presence of the selftrapping transition of the acoustic polaron in free-standing slabs are determined qualitatively. The critical coupling constant for the discontinuous transition from a quasi-free state to a trapped state of the acoustic polaron in free-standing slabs tends to shift toward the weaker electronphonon coupling with the increasing cutoff wave-vector. Detailed numerical results confirm that the self-trapping transition of holes is expected to occur in the free-standing slabs of wide-bandgap semi-conductors.

Free-Standing Slabs, Acoustic Polaron, Self-Trapping

Hou, J. and Si, G. (2014) Acoustic Polaron in Free-Standing Slabs. World Journal of Condensed Matter Physics, 4, 235-240. doi: 10.4236/wjcmp.2014.44025.