K. S. Romanov scite author profile

Transition-metal dopants such as Mn determine the ferromagnetism in dilute magnetic semiconductors such as Ga(1-x)Mn(x)As. Recently, the acceptor states of Mn dopants in GaAs were found to be highly anisotropic owing to the symmetry of the host crystal. Here, we show how the shape of such a state can be modified by local strain. The Mn acceptors near InAs quantum dots are mapped at room temperature by scanning tunnelling microscopy. Dramatic distortions and a reduction in the symmetry of the wavefunction of the hole bound to the Mn acceptor are observed originating from strain induced by quantum dots. Calculations of the acceptor-state wavefunction in the presence of strain, within a tight-binding model and within an effective-mass model, agree with the experimentally observed shape. The magnetic easy axes of strained lightly doped Ga(1-x)Mn(x)As can be explained on the basis of the observed local density of states for the single Mn spin.

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Theory of helicity-sensitive terahertz radiation detection by field effect transistors

Romanov

Dyakonov

2013

Appl. Phys. Lett.

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Spatial distribution of a hole localized on a magnetic acceptor in cubic crystals

Monakhov¹,

Romanov²,

Panaĭotti³

et al. 2006

Solid State Communications

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Energy spectrum and quantum magnetotransport in type-II heterojunctions

et al. 2004

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The dynamic range of THz broadband FET detectors

But

Diakonova

Drexler

et al. 2013

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International audienceField effect transistors are promising detectors of THz radiation. They operate at room temperatures have high responsivity, low noise equivalent power, and fast response time. However, their linearity (dynamic range) and possibility of their application in the domain of high power radiation has not been yet sufficiently studied. We have investigated room temperature field effect transistors, detection at frequencies from 0.3 to 3 THz with power up to 100 kW/cm2. Several types of HEMTs and MOSFETs operating in the broadband non resonant detection regime, have been investigated. To provide a wide range of incident THz radiation intensities we used continuous-wave and pulsed sources: backward oscillators, CO2 pumped methanol laser, free electron laser, NH3, D2O, and CH3F lasers. We find that the photoresponse of HEMTs and MOSFETs is linear in radiation intensity up to a several kW/cm2 and then it saturates. The onset of the saturation depends on the radiation frequency and the transistor type. The observed saturation behavior can not be explained by the existing theoretical model which predict a square root like dependence of the photoresponse. We tentatively attribute the unusual features of the photoresponse saturation observed at high intensities considering high electric field transport phenomena, e.g., electron heating and electron velocity saturation. © (2013) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only

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K. S. Romanov

Warping a single Mn acceptor wavefunction by straining the GaAs host

Theory of helicity-sensitive terahertz radiation detection by field effect transistors

Spatial distribution of a hole localized on a magnetic acceptor in cubic crystals

Energy spectrum and quantum magnetotransport in type-II heterojunctions

The dynamic range of THz broadband FET detectors

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