Transmission Resonance Pattern in Finitely Periodic Simple Impurity Doped Superlattice Structures

Kalotas, T. M.; Lee, A. R.; Common, A. K.

doi:10.1002/pssb.2221840110

Cited by 6 publications

(3 citation statements)

References 12 publications

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“…8 Almost all the above cited papers rederive this dispersion relation for Nϭ3 or 4 and even 10 for Nϭ6. A few papers 9,11,14,22 address this question for any value of N with different recursive methods but without reaching the explicit expression given in Ref. 8.…”

Section: Introductionmentioning

confidence: 98%

Theory of surface and interface transverse elastic waves inN-layer superlattices

et al. 1996

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N-layer superlattices are formed out of a periodic repetition of N different slabs. Such materials for Nϭ3 and 4 are now easily grown by molecular-beam epitaxy. We present closed form expressions for localized and resonant transverse elastic waves associated with the surface of a semi-infinite N-layer superlattice, with or without a cap layer, and in contact either with vacuum or with a homogeneous substrate. We also calculate the corresponding Green's-function and densities of states. These general results are illustrated by a few applications to four-layer superlattices made of Nb-Fe-Nb-Cu and Nb-Cu-Nb-Cu. We show that increasing the number of the layers in each unit cell of the superlattice increases, in general, the number of the minigaps and surface modes. We generalize some of the results obtained previously in the case of two-layer superlattices, namely, ͑i͒ the creation from an infinite superlattice of a free surface gives rise to ␦ peaks of weight ͑Ϫ 1 4 ͒ in the density of states, at the edges of the superlattice bulk bands; ͑ii͒ by considering together the two complementary semiinfinite superlattices obtained by cleavage of an infinite superlattice along a plane parallel to the interfaces, one always has as many localized surface modes as minigaps, for any value of the wave vector k ʈ ͑parallel to the interfaces͒. Finally, we investigate the localized and resonant modes associated with the presence of a cap layer on top of the superlattice. ͓S0163-1829͑96͒00944-7͔

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Section: Introductionmentioning

confidence: 98%

Theory of surface and interface transverse elastic waves inN-layer superlattices

et al. 1996

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“…Since the first demonstration of resonant tunneling in double barrier GaAlAs heterostructures [1], the resonant tunneling phenomena in double-barrier and quantum-well structures have been extensively studied [2][3][4][5][6][7][8][9][10][11][12]. Analytical expressions for the transmission coefficient and for the resonance condition in a rectangular n-fold barrier structure have been reported [6], and some quantum-well structures with quasi-periodic barriers have also been investigated [9][10][11].…”

Section: Introductionmentioning

confidence: 99%

“…Analytical expressions for the transmission coefficient and for the resonance condition in a rectangular n-fold barrier structure have been reported [6], and some quantum-well structures with quasi-periodic barriers have also been investigated [9][10][11]. In this paper, analytical expressions for the transmission coefficient and for the resonance condition are given for a periodic barrier structure with arbitrary potential profile, using generalized-barrier parameters [12,13].…”

Section: Introductionmentioning

confidence: 99%