Your search keyword '"Piyathilaka, Herath P."' showing total 3 results

1. Hot-carrier dynamics in InAs/AlAsSb multiple-quantum wells.

Author

Piyathilaka, Herath P., Sooriyagoda, Rishmali, Esmaielpour, Hamidreza, Whiteside, Vincent R., Mishima, Tetsuya D., Santos, Michael B., Sellers, Ian R., and Bristow, Alan D.

Subjects

QUANTUM wells, PHOTONS, SUBMILLIMETER waves, RADIOACTIVE decay, PHOTONIC band gap structures

Abstract

A type-II InAs/AlAs 0.16 Sb 0.84 multiple-quantum well sample is investigated for the photoexcited carrier dynamics as a function of excitation photon energy and lattice temperature. Time-resolved measurements are performed using a near-infrared pump pulse, with photon energies near to and above the band gap, probed with a terahertz probe pulse. The transient terahertz absorption is characterized by a multi-rise, multi-decay function that captures long-lived decay times and a metastable state for an excess-photon energy of > 100 meV. For sufficient excess-photon energy, excitation of the metastable state is followed by a transition to the long-lived states. Excitation dependence of the long-lived states map onto a nearly-direct band gap ( E g ) density of states with an Urbach tail below E g . As temperature increases, the long-lived decay times increase < E g , due to the increased phonon interaction of the unintentional defect states, and by phonon stabilization of the hot carriers > E g . Additionally, Auger (and/or trap-assisted Auger) scattering above the onset of the plateau may also contribute to longer hot-carrier lifetimes. Meanwhile, the initial decay component shows strong dependence on excitation energy and temperature, reflecting the complicated initial transfer of energy between valence-band and defect states, indicating methods to further prolong hot carriers for technological applications. [ABSTRACT FROM AUTHOR]

Published

2021

2. Hot-carrier dynamics and transport in III–V heterostructures for photovoltaic applications.

Author

Piyathilaka, Herath P., Sooriyagoda, Rishmali, Whiteside, Vincent R., Mishima, Tetsuya D., Santos, Michael B., Sellers, Ian R., and Bristow, Alan D.

Published

2022

3. Enhanced hot electron lifetimes in quantum wells with inhibited phonon coupling.

Author

Esmaielpour, Hamidreza, Whiteside, Vincent R., Piyathilaka, Herath P., Vijeyaragunathan, Sangeetha, Wang, Bin, Adcock-Smith, Echo, Roberts, Kenneth P., Mishima, Tetsuya D., Santos, Michael B., Bristow, Alan D., and Sellers, Ian R.

Abstract

Hot electrons established by the absorption of high-energy photons typically thermalize on a picosecond time scale in a semiconductor, dissipating energy via various phonon-mediated relaxation pathways. Here it is shown that a strong hot carrier distribution can be produced using a type-II quantum well structure. In such systems it is shown that the dominant hot carrier thermalization process is limited by the radiative recombination lifetime of electrons with reduced wavefunction overlap with holes. It is proposed that the subsequent reabsorption of acoustic and optical phonons is facilitated by a mismatch in phonon dispersions at the InAs-AlAsSb interface and serves to further stabilize hot electrons in this system. This lengthens the time scale for thermalization to nanoseconds and results in a hot electron distribution with a temperature of 490 K for a quantum well structure under steady-state illumination at room temperature. [ABSTRACT FROM AUTHOR]

Published

2018