Transparency of Semi-Insulating, n-Type, and p-Type Ammonothermal GaN Substrates in the Near-Infrared, Mid-Infrared, and THz Spectral Range

Transparency of Semi-Insulating, n-Type, and p-Type Ammonothermal GaN Substrates in the Near-Infrared, Mid-Infrared, and THz Spectral Range

GaN substrates grown by the ammonothermal method are analyzed by Fast Fourier Transformation Spectroscopy in order to study the impact of doping (both n- and p-type) on their transparency in the near-infrared, mid-infrared, and terahertz spectral range. It is shown that the introduction of dopants c...

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Main Authors: Robert Kucharski, Łukasz Janicki, Marcin Zajac, Monika Welna, Marcin Motyka, Czesław Skierbiszewski, Robert Kudrawiec
Format: Article
Language:English
Published: MDPI AG 2017-06-01
Series:Crystals
Subjects:
GaN
infrared spectral range
THz spectral range
free-carrier absorption
Online Access:http://www.mdpi.com/2073-4352/7/7/187
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spelling doaj-d241bc2721474e79902272c6c82bc72e2020-11-24T21:13:45ZengMDPI AGCrystals2073-43522017-06-017718710.3390/cryst7070187cryst7070187Transparency of Semi-Insulating, n-Type, and p-Type Ammonothermal GaN Substrates in the Near-Infrared, Mid-Infrared, and THz Spectral RangeRobert Kucharski0Łukasz Janicki1Marcin Zajac2Monika Welna3Marcin Motyka4Czesław Skierbiszewski5Robert Kudrawiec6AMMONO S. A, Prusa 2, 00-493 Warsaw, PolandDepartment of Experimental Physics, Wroclaw University of Science and Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, PolandAMMONO S. A, Prusa 2, 00-493 Warsaw, PolandDepartment of Experimental Physics, Wroclaw University of Science and Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, PolandDepartment of Experimental Physics, Wroclaw University of Science and Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, PolandInstitute of High Pressure Physics, Polish Academy of Science, Sokołowska 29/37, 01-142 Warsaw, PolandDepartment of Experimental Physics, Wroclaw University of Science and Technology, Wybrzeże Wyspiańskiego 27, 50-370 Wrocław, PolandGaN substrates grown by the ammonothermal method are analyzed by Fast Fourier Transformation Spectroscopy in order to study the impact of doping (both n- and p-type) on their transparency in the near-infrared, mid-infrared, and terahertz spectral range. It is shown that the introduction of dopants causes a decrease in transparency of GaN substrates in a broad spectral range which is attributed to absorption on free carriers (n-type samples) or dopant ionization (p-type samples). In the mid-infrared the transparency cut-off, which for a semi-insulating GaN is at ~7 µm due to an absorption on a second harmonic of optical phonons, shifts towards shorter wavelengths due to an absorption on free carriers up to ~1 µm at n ~ 1020 cm−3 doping level. Moreover, a semi-insulating GaN crystal shows good transparency in the 1–10 THz range, while for n-and p-type crystal, the transparency in this spectral region is significantly quenched below 1%. In addition, it is shown that in the visible spectral region n-type GaN substrates with a carrier concentration below 1018 cm−3 are highly transparent with the absorption coefficient below 3 cm−1 at 450 nm, a satisfactory condition for light emitting diodes and laser diodes operating in this spectral range.http://www.mdpi.com/2073-4352/7/7/187GaNinfrared spectral rangeTHz spectral rangefree-carrier absorption
collection DOAJ
language English
format Article
sources DOAJ
author Robert Kucharski
Łukasz Janicki
Marcin Zajac
Monika Welna
Marcin Motyka
Czesław Skierbiszewski
Robert Kudrawiec
spellingShingle Robert Kucharski
Łukasz Janicki
Marcin Zajac
Monika Welna
Marcin Motyka
Czesław Skierbiszewski
Robert Kudrawiec
Transparency of Semi-Insulating, n-Type, and p-Type Ammonothermal GaN Substrates in the Near-Infrared, Mid-Infrared, and THz Spectral Range
Crystals
GaN
infrared spectral range
THz spectral range
free-carrier absorption
author_facet Robert Kucharski
Łukasz Janicki
Marcin Zajac
Monika Welna
Marcin Motyka
Czesław Skierbiszewski
Robert Kudrawiec
author_sort Robert Kucharski
title Transparency of Semi-Insulating, n-Type, and p-Type Ammonothermal GaN Substrates in the Near-Infrared, Mid-Infrared, and THz Spectral Range
title_short Transparency of Semi-Insulating, n-Type, and p-Type Ammonothermal GaN Substrates in the Near-Infrared, Mid-Infrared, and THz Spectral Range
title_full Transparency of Semi-Insulating, n-Type, and p-Type Ammonothermal GaN Substrates in the Near-Infrared, Mid-Infrared, and THz Spectral Range
title_fullStr Transparency of Semi-Insulating, n-Type, and p-Type Ammonothermal GaN Substrates in the Near-Infrared, Mid-Infrared, and THz Spectral Range
title_full_unstemmed Transparency of Semi-Insulating, n-Type, and p-Type Ammonothermal GaN Substrates in the Near-Infrared, Mid-Infrared, and THz Spectral Range
title_sort transparency of semi-insulating, n-type, and p-type ammonothermal gan substrates in the near-infrared, mid-infrared, and thz spectral range
publisher MDPI AG
series Crystals
issn 2073-4352
publishDate 2017-06-01
description GaN substrates grown by the ammonothermal method are analyzed by Fast Fourier Transformation Spectroscopy in order to study the impact of doping (both n- and p-type) on their transparency in the near-infrared, mid-infrared, and terahertz spectral range. It is shown that the introduction of dopants causes a decrease in transparency of GaN substrates in a broad spectral range which is attributed to absorption on free carriers (n-type samples) or dopant ionization (p-type samples). In the mid-infrared the transparency cut-off, which for a semi-insulating GaN is at ~7 µm due to an absorption on a second harmonic of optical phonons, shifts towards shorter wavelengths due to an absorption on free carriers up to ~1 µm at n ~ 1020 cm−3 doping level. Moreover, a semi-insulating GaN crystal shows good transparency in the 1–10 THz range, while for n-and p-type crystal, the transparency in this spectral region is significantly quenched below 1%. In addition, it is shown that in the visible spectral region n-type GaN substrates with a carrier concentration below 1018 cm−3 are highly transparent with the absorption coefficient below 3 cm−1 at 450 nm, a satisfactory condition for light emitting diodes and laser diodes operating in this spectral range.
topic GaN
infrared spectral range
THz spectral range
free-carrier absorption
url http://www.mdpi.com/2073-4352/7/7/187
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