Carrier dynamics in Si nanocrystals in an SiO<inf>2</inf> matrix investigated by transient light absorption

De Boer, WDAM; De Jong, EMLD; Timmerman, D; Gregorkiewicz, T; Zhang, H; Buma, WJ; Poddubny, AN; Prokofiev, AA; Yassievich, IN

Carrier dynamics in Si nanocrystals in an SiO<inf>2</inf> matrix investigated by transient light absorption

De Boer, WDAM De Jong, EMLD Timmerman, D Gregorkiewicz, T Zhang, H Buma, WJ Poddubny, AN Prokofiev, AA Yassievich, IN

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Publication Type:: Journal Article
Citation:: Physical Review B - Condensed Matter and Materials Physics, 2013, 88 (15)
Issue Date:: 2013-10-08

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Field	Value	Language
dc.contributor.author	De Boer, WDAM	en_US
dc.contributor.author	De Jong, EMLD	en_US
dc.contributor.author	Timmerman, D	en_US
dc.contributor.author	Gregorkiewicz, T	en_US
dc.contributor.author	Zhang, H	en_US
dc.contributor.author	Buma, WJ	en_US
dc.contributor.author	Poddubny, AN	en_US
dc.contributor.author	Prokofiev, AA	en_US
dc.contributor.author	Yassievich, IN	en_US
dc.date.issued	2013-10-08	en_US
dc.identifier.citation	Physical Review B - Condensed Matter and Materials Physics, 2013, 88 (15)	en_US
dc.identifier.issn	1098-0121	en_US
dc.identifier.uri	http://hdl.handle.net/10453/34497
dc.description.abstract	We report on investigations of optical carrier generation in silicon nanocrystals embedded in an SiO2 matrix. Carrier relaxation and recombination processes are monitored by means of time-resolved induced absorption, using a conventional femtosecond pump-probe setup for samples containing different average sizes of nanocrystals (dNC = 2.5-5.5 nm). The electron-hole pairs generated by the pump pulse are probed by a second pulse over a broad spectral range (Eprobe = 0.95-1.35 or 1.6-3.25 eV), by which information on excited states is obtained. Under the same excitation conditions, we observe that the induced absorption intensity in the near-infrared range is a factor of ∼10 higher than in the visible range. To account for these observations, we model the spectral dependence of the induced absorption signal using an empirical sp3d5s* tight-binding technique, by which the spectrum can be well reproduced up to a certain threshold. For probe photon energies above this threshold (dependent on nanocrystal size), the induced absorption signal is found to feature a long-standing component, whereas the induced absorption signal for probe photon energies below this value vanishes within 0.5 ns. We explain this by self-trapping of excitons on surface-related states. © 2013 American Physical Society.	en_US
dc.relation.ispartof	Physical Review B - Condensed Matter and Materials Physics	en_US
dc.relation.isbasedon	10.1103/PhysRevB.88.155304	en_US
dc.subject.classification	Fluids & Plasmas	en_US
dc.title	Carrier dynamics in Si nanocrystals in an SiO<inf>2</inf> matrix investigated by transient light absorption	en_US
dc.type	Journal Article
utslib.citation.volume	15	en_US
utslib.citation.volume	88	en_US
utslib.for	0205 Optical Physics	en_US
utslib.for	02 Physical Sciences	en_US
utslib.for	03 Chemical Sciences	en_US
utslib.for	09 Engineering	en_US
pubs.embargo.period	Not known	en_US
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Science
pubs.organisational-group	/University of Technology Sydney/Faculty of Science/School of Mathematical and Physical Sciences
utslib.copyright.status	open_access
pubs.issue	15	en_US
pubs.publication-status	Published	en_US
pubs.volume	88	en_US

Abstract:

We report on investigations of optical carrier generation in silicon nanocrystals embedded in an SiO2 matrix. Carrier relaxation and recombination processes are monitored by means of time-resolved induced absorption, using a conventional femtosecond pump-probe setup for samples containing different average sizes of nanocrystals (dNC = 2.5-5.5 nm). The electron-hole pairs generated by the pump pulse are probed by a second pulse over a broad spectral range (Eprobe = 0.95-1.35 or 1.6-3.25 eV), by which information on excited states is obtained. Under the same excitation conditions, we observe that the induced absorption intensity in the near-infrared range is a factor of ∼10 higher than in the visible range. To account for these observations, we model the spectral dependence of the induced absorption signal using an empirical sp3d5s* tight-binding technique, by which the spectrum can be well reproduced up to a certain threshold. For probe photon energies above this threshold (dependent on nanocrystal size), the induced absorption signal is found to feature a long-standing component, whereas the induced absorption signal for probe photon energies below this value vanishes within 0.5 ns. We explain this by self-trapping of excitons on surface-related states. © 2013 American Physical Society.

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