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10 results on '"Aytac, Y."'

1. Probing the Free-carrier Absorption in Multi-Layer Black Phosphorus

Author

Aytac, Y., Mittendoff, M., and Murphy, T. E.

Subjects
Condensed Matter - Materials Science
Abstract

We study the carrier relaxation dynamics in thin black phosphorus (bP) using time-resolved differential transmission measurements. The inter-band and intra-band transitions, relaxation, and carrier recombination lifetimes are revealed by tuning the mid-infrared probe wavelength above and below the bandgap of black phosphorus. When the probe energy exceeds the bandgap, Pauli blocked inter-band transitions are observed. The differential transmission signal changes sign from positive to negative when the probe energy is below the bandgap, due to the absence of inter-band transitions and enhancement in the free-carrier absorption (FCA). The minority carrier lifetime and radiative recombination coefficient are estimated 1.3 ns, and 5.9$\rm \times 10^{-10}$ $\rm cm^{3}/s$, respectively. The overall recombination lifetime of bP is limited by radiative recombination for excess carrier densities larger than 5$\rm \times 10^{19}$ $\rm cm^{-3}$.

Published
2018
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2. Bandgap and temperature dependence of Auger recombination in InAs/InAsSb type-II superlattices.

Author

Aytac, Y., Olson, B. V., Kim, J. K., Shaner, E. A., Hawkins, S. D., Klem, J. F., Olesberg, J., Flatté, M. E., and Boggess, T. F.

Subjects
*ELECTRON-hole recombination, *BAND gaps, *SUPERLATTICES, *VALENCE bands, *QUANTUM wells
Abstract

The paper presents a theoretical study of the modulation instability of a continuous or quasicontinuous optical probe in a three level quantum well system under electromagnetically induced transparency. The modulation instability is affected by the control field detuning, as well as even-order dispersion and by the strength of Kerr (third-order) and quintic (fifth-order) nonlinearities. The fourth-order dispersion reduces the bandwidth over which modulation instability occurs, whereas the quintic nonlinearity saturates the growth of the modulation instability. Detuning the control field from resonance can significantly reduce the growth of the modulation instability at both low and high power levels. At low powers, the system becomes stable against modulation instability for small detuning of the control field and at high powers modulation instability disappears for larger detuning. [ABSTRACT FROM AUTHOR]

Published
2016
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3. Temperature-dependent optical measurements of the dominant recombination mechanisms in InAs/InAsSb type-2 superlattices.

Author

Aytac, Y., Olson, B. V., Kim, J. K., Shaner, E. A., Hawkins, S. D., Klem, J. F., Flatté, M. E., and Boggess, T. F.

Subjects
*OPTICAL measurements, *TEMPERATURE control, *SUPERLATTICES, *ELECTRON recombination, *AUGER effect, *CARRIER density, *ANTIMONY, *BAND gaps
Abstract

Temperature-dependent measurements of carrier recombination rates using a time-resolved optical pump-probe technique are reported for mid-wave infrared InAs/InAs1–xSbx type-2 superlattices (T2SLs). By engineering the layer widths and alloy compositions, a 16K band-gap of ~235±10 meV was achieved for five unintentionally and four intentionally doped T2SLs. Carrier lifetimes were determined by fitting lifetime models based on Shockley-Read-Hall (SRH), radiative, and Auger recombination processes to the temperature and excess carrier density dependent data. The minority carrier (MC), radiative, and Auger lifetimes were observed to generally increase with increasing antimony content and decreasing layer thickness for the unintentionally doped T2SLs. The MC lifetime is limited by SRH processes at temperatures below 200K in the unintentionally doped T2SLs. The extracted SRH defect energy levels were found to be near mid-bandgap. Also, it is observed that the MC lifetime is limited by Auger recombination in the intentionally doped T2SLs with doping levels greater than n~1016 cm–3. [ABSTRACT FROM AUTHOR]

Published
2015
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4. High power cascaded mid-infrared InAs/GaSb light emitting diodes on mismatched GaAs.

Author

Provence, S. R., Ricker, R., Aytac, Y., Boggess, T. F., and Prineas, J. P.

Subjects
OPTICAL properties of indium arsenide, SUPERLATTICES, LIGHT emitting diodes, OPTICAL properties of gallium arsenide, OPTICAL properties, THERMAL properties, MATHEMATICAL models
Abstract

InAs/GaSb mid-wave, cascaded superlattice light emitting diodes are found to give higher radiance when epitaxially grown on mismatched GaAs substrates compared to lattice-matched GaSb substrates. Peak radiances of 0.69 W/cm2-sr and 1.06 W/cm2-sr for the 100×100 µm2 GaSb and GaAs-based devices, respectively, were measured at 77 K. Measurement of the recombination coefficients shows the shorter Shockley-Read-Hall recombination lifetime as misfit dislocations for growth on GaAs degrade the quantum efficiency only at low current injection. The improved performance on GaAs was found to be due to the higher transparency and improved thermal properties of the GaAs substrate. [ABSTRACT FROM AUTHOR]

Published
2015
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9. Photo detectors for multi-spectral sensing

Author

Perera, A. G. U., primary, Aytac, Y., additional, Ariyawansa, G., additional, Matsik, S. G., additional, Buchanan, M., additional, Wasilewski, Z. R., additional, Bhowmich, S., additional, Huang, G., additional, Guo, W., additional, Lee, C. S., additional, Bhattacharya, P., additional, and Liu, H. C., additional

Published
2011
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