Erratum: Light-matter interaction and lasing in semiconductor nanowires: A combined finite-difference time-domain and semiconductor Bloch equation approach [Phys. Rev. B91, 045203 (2015)]

Journal article

R. Buschlinger, M. Lorke, U. Peschel
2015

Cite

APA Click to copy
Buschlinger, R., Lorke, M., & Peschel, U. (2015). Erratum: Light-matter interaction and lasing in semiconductor nanowires: A combined finite-difference time-domain and semiconductor Bloch equation approach [Phys. Rev. B91, 045203 (2015)].

Chicago/Turabian Click to copy
Buschlinger, R., M. Lorke, and U. Peschel. “Erratum: Light-Matter Interaction and Lasing in Semiconductor Nanowires: A Combined Finite-Difference Time-Domain and Semiconductor Bloch Equation Approach [Phys. Rev. B91, 045203 (2015)]” (2015).

MLA Click to copy
Buschlinger, R., et al. Erratum: Light-Matter Interaction and Lasing in Semiconductor Nanowires: A Combined Finite-Difference Time-Domain and Semiconductor Bloch Equation Approach [Phys. Rev. B91, 045203 (2015)]. 2015.

BibTeX Click to copy

@article{r2015a,
  title = {Erratum: Light-matter interaction and lasing in semiconductor nanowires: A combined finite-difference time-domain and semiconductor Bloch equation approach [Phys. Rev. B91, 045203 (2015)]},
  year = {2015},
  author = {Buschlinger, R. and Lorke, M. and Peschel, U.}
}

Abstract

FIG. 5. (Color online) Spatiotemporal field dynamics inside a nanowire laser (l = 7.5 μm, d = 250 nm). (a) and (d) Electric field intensity in an xz and an xy slice of the simulation volume during pumping. (b) |E|2 averaged across transverse slices and plotted along z and t . (e)–(g) Transverse intensity profiles inside the wire during lasing emission. (c) Intensity profile in an xz slice after the maximum of the lasing emission.