In this dissertation, we theorize the fundamentals of an ultrafast and ultrastrong optical field interacting with graphene and graphene-like nanocrystals as a prototype of two-dimensional class of materials. Graphene exhibits dramatically different characteristics from both insulators and metals. Field- induced, Zener-type electron transfer from the valence band to the conduction band is deeply irreversible (nonadiabatic) in graphene. Correspondingly, an ultrashort electronic current can be induced on a femtosecond timescale. The ultrafast optically-induced current and charge transfer in graphene may provide a fundamental basis for detection and calibration of ultrashort intense laser pulses and are promising for petahertz information proce...
Layered materials in which atomic sheets are stacked together by weak van der Waals forces can be us...
We demonstrate that currents induced in graphene by ultrashort laser pulses are sensitive to the exa...
This thesis presents a study focused on interactions of femtosecond laser pulses with graphene, a ...
In this dissertation, we theorize the fundamentals of an ultrafast and ultrastrong optical field int...
In this dissertation, we study theoretically ultrafast processes accessible via the interaction of t...
In this dissertation, we study theoretically ultrafast processes accessible via the interaction of t...
There is plenty of room at the bottom. This bold and prophetic statement from Nobel laureate Richar...
The intriguing electronic properties of graphene and other two-dimensional (2D) materials are the ba...
We study theoretically nonlinear dynamics of a graphene nanoflake placed in the field of an ultrasho...
The investigation of photoelectric phenomena in the terahertz frequency range is a powerful tool to ...
This dissertation describes the response of graphene and graphene fragments to ultrafast optical pul...
The fast-evolving field of condensed matter physics is witnessing a rapid development of a new class...
In this thesis, the effect of the sample properties on the characteristics of the hot carrier lumine...
The speed of solid-state electronic devices, determined by the temporal dynamics of charge carriers...
Graphene, a single-atom-thick plane of carbon, has unique optoelectronic properties that result in a...
Layered materials in which atomic sheets are stacked together by weak van der Waals forces can be us...
We demonstrate that currents induced in graphene by ultrashort laser pulses are sensitive to the exa...
This thesis presents a study focused on interactions of femtosecond laser pulses with graphene, a ...
In this dissertation, we theorize the fundamentals of an ultrafast and ultrastrong optical field int...
In this dissertation, we study theoretically ultrafast processes accessible via the interaction of t...
In this dissertation, we study theoretically ultrafast processes accessible via the interaction of t...
There is plenty of room at the bottom. This bold and prophetic statement from Nobel laureate Richar...
The intriguing electronic properties of graphene and other two-dimensional (2D) materials are the ba...
We study theoretically nonlinear dynamics of a graphene nanoflake placed in the field of an ultrasho...
The investigation of photoelectric phenomena in the terahertz frequency range is a powerful tool to ...
This dissertation describes the response of graphene and graphene fragments to ultrafast optical pul...
The fast-evolving field of condensed matter physics is witnessing a rapid development of a new class...
In this thesis, the effect of the sample properties on the characteristics of the hot carrier lumine...
The speed of solid-state electronic devices, determined by the temporal dynamics of charge carriers...
Graphene, a single-atom-thick plane of carbon, has unique optoelectronic properties that result in a...
Layered materials in which atomic sheets are stacked together by weak van der Waals forces can be us...
We demonstrate that currents induced in graphene by ultrashort laser pulses are sensitive to the exa...
This thesis presents a study focused on interactions of femtosecond laser pulses with graphene, a ...