Infrared reflection and transmission of undoped and Si-doped InAs grown on GaAs by molecular beam epitaxy

Li, Y B; Stradling, R. A.; Knight, T; Birch, J.R.; Thomas, R H; Phillips, C. C.; Ferguson, I.

doi:10.1088/0268-1242/8/1/017

Cited by 62 publications

(44 citation statements)

References 33 publications

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“…The first term in Eq. ͑2͒ is equivalent to the reflectivity of a thin absorbing film on an opaque substrate, 22,27,28,32 and the second term is derived from the sum of a geometric series of multiple reflections across the substrate. The quantity given by Eq.…”

Section: ͑8͒mentioning

confidence: 99%

Infrared studies of hole-plasmon excitations in heavily-doped p-type MBE-grown GaAs:C

Songprakob

Zallen²,

Liu³

et al. 2000

Phys. Rev. B

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Infrared reflectivity measurements ͑200-5000 cm Ϫ1 ) and transmittance measurements ͑500-5000 cm Ϫ1 )have been carried out on heavily-doped GaAs:C films grown by molecular-beam epitaxy. With increasing carbon concentration, a broad reflectivity minimum develops in the 1000-3000 cm Ϫ1 region and the onephonon band near 270 cm Ϫ1 rides on a progressively increasing high-reflectivity background. An effectiveplasmon/one-phonon dielectric function with only two free parameters ͑plasma frequency p and damping constant ␥) gives a good description of the main features of both the reflectivity and transmittance spectra. The dependence of p 2 on hole concentration p is linear; at pϭ1.4ϫ10 20 cm Ϫ3 , p is 2150 cm Ϫ1 . At each doping, the damping constant ␥ is large and corresponds to an infrared hole mobility that is about half the Hall mobility. Secondary-ion mass spectroscopy and localized-vibrational-mode measurements indicate that the Hall-derived p is close to the carbon concentration and that the Hall factor is close to unity, so that the Hall mobility provides a good estimate of actual dc mobility. The observed dichotomy between the dc and infrared mobilities is real, not a statistical-averaging artifact. The explanation of the small infrared mobility resides in the influence of intervalence-band absorption on the effective-plasmon damping, which operationally determines that mobility. This is revealed by a comparison of the infrared absorption results to Braunstein's low-p p-GaAs spectra and to a k"p calculation extending Kane's theory to our high dopings. For n-GaAs, which lacks infrared interband absorption, the dc and infrared mobilities do not differ.

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Section: ͑8͒mentioning

confidence: 99%

Infrared studies of hole-plasmon excitations in heavily-doped p-type MBE-grown GaAs:C

Songprakob

Zallen²,

Liu³

et al. 2000

Phys. Rev. B

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“…1 is a classic example of a polar material. The vertical lines indicate the energies of the transverse-optical ͑TO͒ and the longitudinal-optical ͑LO͒ phonons as given by Li et al 13 as 217.3 cm −1 and 238.5 cm −1 , respectively. The horizontal lines indicate the reflectivity calculated from the refractive index.…”

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confidence: 99%

“…The horizontal lines indicate the reflectivity calculated from the refractive index. ͑The imaginary part k is taken to be 0.͒ The highfrequency refractive index is taken to be n = 3.5 from Li et al; 13 the low-frequency refractive index is calculated to be 3.84 using the Lyddane-Sachs-Teller relation. The observed reflectivity spectrum is consistent with these indices.…”

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Strong terahertz emission from (100) p-type InAs

Mendis

Smith

Bignell

et al. 2005

Journal of Applied Physics

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Terahertz emission has been observed from (100) Zn-acceptor-doped InAs under illumination by fs pulses of near-infrared radiation. Turning the crystal about the surface normal produces two maxima per rotation, whether the angle of incidence is 45° or 75°, in contrast to (111) p-InAs, where three maxima per rotation have been reported. The emitted terahertz power has a quadratic variation with the pump power and decreases with increasing temperature in the range 20–300K. This behavior is consistent with a photocurrent surge being the dominant terahertz generating mechanism at low excitation fluences. The p-type InAs generates about two orders of magnitude more power than the standard unbiased terahertz emitter, 1mm thick ZnTe.

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“…where P 2 is the momentum matrix element of the coupling between conduction and valence bands and is assumed to be 11.9 eV 23 and m e is the electron rest mass. All the parameters required for the calculations are taken from Ref.…”

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Influence of carrier concentration on properties of InAs waveguide layers in interband cascade laser structures

Dyksik

Motyka

Sęk

et al. 2016

Journal of Applied Physics

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We present a characterization of doped InAs layers in interband cascade lasers exploiting the plasmon-enhanced waveguiding. Fast differential reflectance was employed in order to identify the plasma-edge frequency via the Berreman effect, and shown as advantageous method when compared to other types of measurements. The carrier concentration was then derived and compared with the nominal doping densities. The emission properties of the investigated structures were studied by means of photoluminescence (PL). Its full width at half maximum and integrated intensity were extracted from PL spectra and analyzed in function of the doping (carrier concentration) density. The PL linewidth was found to be independent of the carrier concentration indicating on insignificant contribution of doping to the structural properties deterioration. The PL intensity decay with the carrier concentration suggests being dominated by Auger recombination losses.2

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Infrared reflection and transmission of undoped and Si-doped InAs grown on GaAs by molecular beam epitaxy

Cited by 62 publications

References 33 publications

Infrared studies of hole-plasmon excitations in heavily-doped p-type MBE-grown GaAs:C

Infrared studies of hole-plasmon excitations in heavily-doped p-type MBE-grown GaAs:C

Strong terahertz emission from (100) p-type InAs

Influence of carrier concentration on properties of InAs waveguide layers in interband cascade laser structures

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