Infoscience

Journal article

Fractional-dimensional excitonic absorption theory applied to V-groove quantum wires

A fractional-dimensional approach is applied to a realistic V-groove quantum wire in order to calculate the excitonic absorption spectrum. An excellent agreement is obtained with much more computationally demanding models as well as with experimental photoluminescence excitation data. However, comparison with a full excitonic calculation reveals situations were the concept of fractional dimensions to some extent fails.

    Keywords: BINDING-ENERGIES ; WELLS ; SPECTRA ; SPACE ; SEMICONDUCTORS ; FORMULATION ; ANISOTROPY ; MODEL

    Note:

    Linkoping Univ, Dept Phys & Measurement Technol IFM, S-58183 Linkoping, Sweden. Swiss Fed Inst Technol, Inst Quantum Elect & Photon, Lab Phys Nanostruct, CH-1015 Lausanne, Switzerland. Karlsson, KF, Linkoping Univ, Dept Phys & Measurement Technol IFM, S-58183 Linkoping, Sweden.

    ISI Document Delivery No.: 867QA

    Times Cited: 0

    Cited Reference Count: 16

    Cited References:

    BANYAI L, 1987, PHYS REV B, V36, P6099

    CHANG YC, 1985, APPL PHYS LETT, V47, P1324

    CHRISTOL P, 1993, J APPL PHYS, V74, P5626

    CHRISTOL P, 1994, IEEE J QUANTUM ELECT, V30, P2287

    DUPERTUIS MA, UNPUB

    DUPERTUIS MA, 2002, P ICCN 2002, P227

    HE XF, 1990, SOLID STATE COMMUN, V75, P111

    HE XF, 1991, PHYS REV B, V43, P2063

    LEFEBVRE P, 1993, PHYS REV B, V48, P17308

    LEFEBVRE P, 1995, PHYS REV B, V52, P5756

    LEFEBVRE P, 1995, SUPERLATTICE MICROST, V17, P19

    MATHIEU H, 1992, PHYS REV B, V46, P4092

    NASH KJ, 1989, PHYS REV B, V39, P10943

    SIARKOS A, 2000, PHYS REV B, V61, P16854

    STILLINGER FH, 1977, J MATH PHYS, V18, P12224

    VOUILLOZ F, 1998, PHYS REV B, V57, P12378

    153306

    Reference

    • LOEQ-ARTICLE-2004-002

    Record created on 2007-08-31, modified on 2016-08-08

Fulltext

  • There is no available fulltext. Please contact the lab or the authors.

Related material