DOIAbstract
We study ions in a nanotrap, where the electrodes are nanomechanical resonantors. The ions play the role of a quantum optical system which acts as a probe and control, and allows entanglement with or between nanomechanical resonators
We study ions in a nanotrap, where the electrodes are nanomechanical resonantors. The ions play the role of a quantum optical system which acts as a probe and control, and allows entanglement with or between nanomechanical resonators
An enduring challenge for contemporary physics is to experimentally observe and control quantum beha...
Light can transfer momentum to a mechanical oscillator via the radiation pressure force. Conversely,...
This thesis describes experiments that were done with a wide range of nano(electro)mechanical system...
We study theoretically the mechanical drive of a trapped ultracold ion by a charged nanowire through...
A technique from ion spectroscopy reveals the quantum nature of a mechanical system at low tem-perat...
There has been much interest in developing methods for transferring quantum information. We discuss ...
Coupling an electromechanical resonator with carbon-nanotube quantum dots is a significant method to...
We review the current state of research into the development of nanomechanical resonators and their ...
Quantum thoery predicts an existence of strong and collective strong coupling regime of atoms and el...
We propose a mechanism to interface a transmission line resonator (TLR) with a nano-mechanical reson...
We discuss hybrid systems in which a mechanical oscillator is coupled to another (microscopic) quant...
We discuss hybrid systems in which a mechanical oscillator is coupled to another (microscopic) quant...
The dynamics of charge qubits coupled to a nanomechanical resonator under the influence of both a ph...
The electromagnetic force is one of the four basic interactions discovered in nature and it plays an...
Abstract: Molecular electronics promises a new generation of ultralow-energy information technologie...
An enduring challenge for contemporary physics is to experimentally observe and control quantum beha...
Light can transfer momentum to a mechanical oscillator via the radiation pressure force. Conversely,...
This thesis describes experiments that were done with a wide range of nano(electro)mechanical system...
We study theoretically the mechanical drive of a trapped ultracold ion by a charged nanowire through...
A technique from ion spectroscopy reveals the quantum nature of a mechanical system at low tem-perat...
There has been much interest in developing methods for transferring quantum information. We discuss ...
Coupling an electromechanical resonator with carbon-nanotube quantum dots is a significant method to...
We review the current state of research into the development of nanomechanical resonators and their ...
Quantum thoery predicts an existence of strong and collective strong coupling regime of atoms and el...
We propose a mechanism to interface a transmission line resonator (TLR) with a nano-mechanical reson...
We discuss hybrid systems in which a mechanical oscillator is coupled to another (microscopic) quant...
We discuss hybrid systems in which a mechanical oscillator is coupled to another (microscopic) quant...
The dynamics of charge qubits coupled to a nanomechanical resonator under the influence of both a ph...
The electromagnetic force is one of the four basic interactions discovered in nature and it plays an...
Abstract: Molecular electronics promises a new generation of ultralow-energy information technologie...
An enduring challenge for contemporary physics is to experimentally observe and control quantum beha...
Light can transfer momentum to a mechanical oscillator via the radiation pressure force. Conversely,...
This thesis describes experiments that were done with a wide range of nano(electro)mechanical system...
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