Add to ORKGIn this work, we used the quantum transport equation and density matrix formalism to calculate the frequency dependent electrical current of a two-dimensional electron gas directly driven by an intense terahertz laser. It is found that due to increased electron-photon coupling, the electron-impurity scattering decreases rapidly with the electric field
Thesis (Ph. D.)--University of Rochester. Dept. of Electrical and Computer Engineering, 2010.Present...
Confinement of carriers in nanostructures entails strong modifications of their physical properties,...
We study theoretically the nonlinear optical properties of a semiconductor quantum well (QW) irradia...
Nonlinear absorption of terahertz waves by electrons in a semiconductor heterostructure is calculate...
Terahertz conductivity spectra contain information on charge transport mechanisms and charge confine...
Terahertz conductivity spectra contain information on charge transport mechanisms and charge confine...
We explore conductivity of nanostructures in the terahertz range. We model the nanostructure as a sq...
We investigated optical nonlinearity induced by electron tunneling through an insulating vertical ga...
In this work we study an interaction between electrons in Dirac points and terahertz electromagnetic...
Using terahertz time-domain spectroscopy we investigate how quantum, magnetic and electrostatic conf...
By suitable design it is possible to achieve quasi-ballistic transport in semiconductor nanostructur...
Conductivity of semicoductor nanostructures has its maximum in terahertz spectral range. Linear resp...
We calculate the terahertz-frequency dependence of the transient linear conductivity σ(t,ω) of elect...
We calculate the terahertz-frequency dependence of the transient linear conductivity σ(t,ω) of elect...
In this thesis there is used quantum model of electron conductivity of semiconductor nanostructures ...
Thesis (Ph. D.)--University of Rochester. Dept. of Electrical and Computer Engineering, 2010.Present...
Confinement of carriers in nanostructures entails strong modifications of their physical properties,...
We study theoretically the nonlinear optical properties of a semiconductor quantum well (QW) irradia...
Nonlinear absorption of terahertz waves by electrons in a semiconductor heterostructure is calculate...
Terahertz conductivity spectra contain information on charge transport mechanisms and charge confine...
Terahertz conductivity spectra contain information on charge transport mechanisms and charge confine...
We explore conductivity of nanostructures in the terahertz range. We model the nanostructure as a sq...
We investigated optical nonlinearity induced by electron tunneling through an insulating vertical ga...
In this work we study an interaction between electrons in Dirac points and terahertz electromagnetic...
Using terahertz time-domain spectroscopy we investigate how quantum, magnetic and electrostatic conf...
By suitable design it is possible to achieve quasi-ballistic transport in semiconductor nanostructur...
Conductivity of semicoductor nanostructures has its maximum in terahertz spectral range. Linear resp...
We calculate the terahertz-frequency dependence of the transient linear conductivity σ(t,ω) of elect...
We calculate the terahertz-frequency dependence of the transient linear conductivity σ(t,ω) of elect...
In this thesis there is used quantum model of electron conductivity of semiconductor nanostructures ...
Thesis (Ph. D.)--University of Rochester. Dept. of Electrical and Computer Engineering, 2010.Present...
Confinement of carriers in nanostructures entails strong modifications of their physical properties,...
We study theoretically the nonlinear optical properties of a semiconductor quantum well (QW) irradia...