Effects of Photonic Band Structure and Unit Super-Cell Size in Graded Photonic Super-Crystal on Broadband Light Absorption in Silicon

Effects of Photonic Band Structure and Unit Super-Cell Size in Graded Photonic Super-Crystal on Broadband Light Absorption in Silicon

The newly discovered graded photonic super-crystal (GPSC) with a large size of unit cell can have novel optical properties that have not been explored. The unit super-cell in the GPSC can be designed to be large or small and thus the GPSC can have no photonic band gap or several gaps. The photonic b...

Full description

Bibliographic Details
Main Authors: Safaa Hassan, Khadijah Alnasser, David Lowell, Yuankun Lin
Format: Article
Language:English
Published: MDPI AG 2019-05-01
Series:Photonics
Subjects:
light trapping
graded photonic super-crystal
micro- and nano-structured materials
photovoltaic devices
silicon
Online Access:https://www.mdpi.com/2304-6732/6/2/50
id doaj-69cd0406cd85480993cbe92e0b07af19
record_format Article
spelling doaj-69cd0406cd85480993cbe92e0b07af192020-11-24T22:15:13ZengMDPI AGPhotonics2304-67322019-05-01625010.3390/photonics6020050photonics6020050Effects of Photonic Band Structure and Unit Super-Cell Size in Graded Photonic Super-Crystal on Broadband Light Absorption in SiliconSafaa Hassan0Khadijah Alnasser1David Lowell2Yuankun Lin3Department of Physics, University of North Texas, Denton, TX 76203, USADepartment of Physics, University of North Texas, Denton, TX 76203, USADepartment of Physics, University of North Texas, Denton, TX 76203, USADepartment of Physics, University of North Texas, Denton, TX 76203, USAThe newly discovered graded photonic super-crystal (GPSC) with a large size of unit cell can have novel optical properties that have not been explored. The unit super-cell in the GPSC can be designed to be large or small and thus the GPSC can have no photonic band gap or several gaps. The photonic band structures in Si GPSC can help predict the light absorption in Si. Photonic resonance modes help enhance the absorption of light in silicon; however, photonic band gaps decrease the absorption for light with a large incident angle. The Si device patterned in GPSC with a unit super-cell of 6a × 6a (a is a lattice constant in traditional photonic crystal) has a broadband high absorption with strong incident-angular dependence. The device with the unit super-cell of 12a × 12a has relatively low light absorption with weak incident-angle dependence. The Si GPSC with a unit super-cell of 8a × 8a combines both advantages of broadband high absorption and weak dependence of absorption on the incident angle.https://www.mdpi.com/2304-6732/6/2/50light trappinggraded photonic super-crystalmicro- and nano-structured materialsphotovoltaic devicessilicon
collection DOAJ
language English
format Article
sources DOAJ
author Safaa Hassan
Khadijah Alnasser
David Lowell
Yuankun Lin
spellingShingle Safaa Hassan
Khadijah Alnasser
David Lowell
Yuankun Lin
Effects of Photonic Band Structure and Unit Super-Cell Size in Graded Photonic Super-Crystal on Broadband Light Absorption in Silicon
Photonics
light trapping
graded photonic super-crystal
micro- and nano-structured materials
photovoltaic devices
silicon
author_facet Safaa Hassan
Khadijah Alnasser
David Lowell
Yuankun Lin
author_sort Safaa Hassan
title Effects of Photonic Band Structure and Unit Super-Cell Size in Graded Photonic Super-Crystal on Broadband Light Absorption in Silicon
title_short Effects of Photonic Band Structure and Unit Super-Cell Size in Graded Photonic Super-Crystal on Broadband Light Absorption in Silicon
title_full Effects of Photonic Band Structure and Unit Super-Cell Size in Graded Photonic Super-Crystal on Broadband Light Absorption in Silicon
title_fullStr Effects of Photonic Band Structure and Unit Super-Cell Size in Graded Photonic Super-Crystal on Broadband Light Absorption in Silicon
title_full_unstemmed Effects of Photonic Band Structure and Unit Super-Cell Size in Graded Photonic Super-Crystal on Broadband Light Absorption in Silicon
title_sort effects of photonic band structure and unit super-cell size in graded photonic super-crystal on broadband light absorption in silicon
publisher MDPI AG
series Photonics
issn 2304-6732
publishDate 2019-05-01
description The newly discovered graded photonic super-crystal (GPSC) with a large size of unit cell can have novel optical properties that have not been explored. The unit super-cell in the GPSC can be designed to be large or small and thus the GPSC can have no photonic band gap or several gaps. The photonic band structures in Si GPSC can help predict the light absorption in Si. Photonic resonance modes help enhance the absorption of light in silicon; however, photonic band gaps decrease the absorption for light with a large incident angle. The Si device patterned in GPSC with a unit super-cell of 6a × 6a (a is a lattice constant in traditional photonic crystal) has a broadband high absorption with strong incident-angular dependence. The device with the unit super-cell of 12a × 12a has relatively low light absorption with weak incident-angle dependence. The Si GPSC with a unit super-cell of 8a × 8a combines both advantages of broadband high absorption and weak dependence of absorption on the incident angle.
topic light trapping
graded photonic super-crystal
micro- and nano-structured materials
photovoltaic devices
silicon
url https://www.mdpi.com/2304-6732/6/2/50
work_keys_str_mv AT safaahassan effectsofphotonicbandstructureandunitsupercellsizeingradedphotonicsupercrystalonbroadbandlightabsorptioninsilicon
AT khadijahalnasser effectsofphotonicbandstructureandunitsupercellsizeingradedphotonicsupercrystalonbroadbandlightabsorptioninsilicon
AT davidlowell effectsofphotonicbandstructureandunitsupercellsizeingradedphotonicsupercrystalonbroadbandlightabsorptioninsilicon
AT yuankunlin effectsofphotonicbandstructureandunitsupercellsizeingradedphotonicsupercrystalonbroadbandlightabsorptioninsilicon
_version_ 1725795434341859328

Similar Items