Add to ORKGIn this paper the Klein-Gordon equation (K-GE) is solved for the interaction of attosecond laser pulses with medium in which Casimir force operates. It is shown that for nanoscale structures, NEMS and MEMS, the attosecond laser pulses can be used as the tool for the investigation of the role played by Casimir force on the nanoscale. Key words: Casimir force; NEMS, MEMS, Attosecond laser pulses
To our knowledge, we report for the first time the optical detection of periodical mechanical deform...
We present theoretical and numerical results for the screened Casimir effect between perfect metal s...
The Casimir Effect is a physical manifestation of quantum fluctuations of the electromagnetic vacuum...
The control of the Casimir force between two parallel plates can be achieved through inducing the op...
Quantum optics combines classical electrodynamics with quantum mechanics to describe how light inter...
This paper discusses recent developments on quantum electrodynamical (QED) phenomena, such as the Ca...
Attosecond pulses are generated by a macroscopic number of ionizing atoms interacting with a focused...
Vacuum fluctuations have observable consequences, like the Casimir force between two plates in vacuu...
The Casimir force between two plates can be controlled using combinations of dispersive metamaterial...
Recently two emerging areas of research, attosecond and nanoscale physics, have started to come toge...
In this thesis we deal with the analysis and measurement of dispersive surface forces, specifically ...
We propose to use optical tweezers to probe the Casimir interaction between microspheres inside a li...
Design of a multi-scale actuator which employs Casimir effect at nano/micro scale in order to provid...
The generation of ultrastrong attosecond pulses through laser-plasma interactions offers the opportu...
The Casimir effect of an ideal Bose gas trapped in a generic power-law potential and confined betwee...
To our knowledge, we report for the first time the optical detection of periodical mechanical deform...
We present theoretical and numerical results for the screened Casimir effect between perfect metal s...
The Casimir Effect is a physical manifestation of quantum fluctuations of the electromagnetic vacuum...
The control of the Casimir force between two parallel plates can be achieved through inducing the op...
Quantum optics combines classical electrodynamics with quantum mechanics to describe how light inter...
This paper discusses recent developments on quantum electrodynamical (QED) phenomena, such as the Ca...
Attosecond pulses are generated by a macroscopic number of ionizing atoms interacting with a focused...
Vacuum fluctuations have observable consequences, like the Casimir force between two plates in vacuu...
The Casimir force between two plates can be controlled using combinations of dispersive metamaterial...
Recently two emerging areas of research, attosecond and nanoscale physics, have started to come toge...
In this thesis we deal with the analysis and measurement of dispersive surface forces, specifically ...
We propose to use optical tweezers to probe the Casimir interaction between microspheres inside a li...
Design of a multi-scale actuator which employs Casimir effect at nano/micro scale in order to provid...
The generation of ultrastrong attosecond pulses through laser-plasma interactions offers the opportu...
The Casimir effect of an ideal Bose gas trapped in a generic power-law potential and confined betwee...
To our knowledge, we report for the first time the optical detection of periodical mechanical deform...
We present theoretical and numerical results for the screened Casimir effect between perfect metal s...
The Casimir Effect is a physical manifestation of quantum fluctuations of the electromagnetic vacuum...