Coupling of Light into Nanowire Arrays and Subsequent Absorption

Nicklas Anttu, Hongqi Xu

Research output: Chapter in Book/Report/Conference proceedingPaper in conference proceedingpeer-review

Abstract

We present a theoretical study of the absorption of light in periodic arrays of InP nanowires. The absorption in the array depends strongly on the diameter and the length of the nanowires, as well as the period of the array. Nanowires of a length of just 2 Am are able, after an appropriate choice for the other parameters, to absorb more than 90% of the incident energy of TE and TM polarized light, with photon energies almost all the way down to the band gap energy and an incidence angle up to 50 degree. This high total absorption arises from a good coupling of the incident light into the nanowire array at the top interface between air and the array and absorption inside the array before the light reaches the interface between the nanowires and the substrate. We find that for a given photon energy there exists a critical nanowire diameter above which a dramatic increase in the absorption occurs. The critical diameter decreases for increasing photon energies, and is directly related to the dispersion of waveguiding modes in single isolated nanowires. A characterization showed that the absorption characteristics of the nanowire arrays are very promising for photovoltaic applications.
Original languageEnglish
Title of host publicationJournal of Nanoscience And Nanotechnology
PublisherAmerican Scientific Publishers
Pages7183-7187
Volume10
DOIs
Publication statusPublished - 2010
EventInternational Conference on Nanoscience and Technology (ChinaNANO 2009) - Beijing, China
Duration: 2009 Sept 12009 Sept 3

Publication series

Name
Number11
Volume10
ISSN (Print)1533-4880
ISSN (Electronic)1533-4899

Conference

ConferenceInternational Conference on Nanoscience and Technology (ChinaNANO 2009)
Country/TerritoryChina
CityBeijing
Period2009/09/012009/09/03

Subject classification (UKÄ)

  • Nano Technology

Free keywords

  • Photovoltaics
  • Periodic Array
  • Nanowire
  • Light Absorption
  • Semiconductor

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