Departament de Física Quantum Information with Continuous Variable systems Grup de Física Teòrica
... information theory into the quantum realm, by using the laws of quantum physics to encode, process and extract information. It was Rolf Landauer, known among other things for his remarkable contributions to the theory of electrical conductivity, who at the end of 1960 coined the idea that informatio ...
... information theory into the quantum realm, by using the laws of quantum physics to encode, process and extract information. It was Rolf Landauer, known among other things for his remarkable contributions to the theory of electrical conductivity, who at the end of 1960 coined the idea that informatio ...
Minimum Policies and Standards for Bachelor of
... The special project is an integration of all skills and knowledge obtained in the BS degree. This component could be a thesis, special project, on-the-job training (OJT) or any combination. HEIs shall have the prerogative to choose a mode of implementing this requirement based on the available resou ...
... The special project is an integration of all skills and knowledge obtained in the BS degree. This component could be a thesis, special project, on-the-job training (OJT) or any combination. HEIs shall have the prerogative to choose a mode of implementing this requirement based on the available resou ...
Chapter 12 Laser Cavities and Microcavities: Vertical Cavity Surface
... Here, T is the roundtrip time of the cavity. The frequency spacing between adjacent cavity modes is called the free spectral range of the cavity. It is more commonly expressed as wavelength spacing, ...
... Here, T is the roundtrip time of the cavity. The frequency spacing between adjacent cavity modes is called the free spectral range of the cavity. It is more commonly expressed as wavelength spacing, ...
Alkali Rydberg States in Electromagnetic Fields
... process stressed the importance of the system’s classical counterpart, and the transition from classically regular to classically chaotic motion taking place at a given field amplitude. Thus, microwave driven Rydberg atoms can nowadays be seen as a key phenomenon that stimulated the search for finge ...
... process stressed the importance of the system’s classical counterpart, and the transition from classically regular to classically chaotic motion taking place at a given field amplitude. Thus, microwave driven Rydberg atoms can nowadays be seen as a key phenomenon that stimulated the search for finge ...
Correlations in multipartite systems: From entanglement to localization Julia Stasi ´nska
... systems, which was initially perceived as more of a paradox and curiosity than something useful, eventually became one of the marvels of modern science. The theory of entanglement, although far from complete, is now well developed and offers many tools that allow us to test the presence of such corr ...
... systems, which was initially perceived as more of a paradox and curiosity than something useful, eventually became one of the marvels of modern science. The theory of entanglement, although far from complete, is now well developed and offers many tools that allow us to test the presence of such corr ...
Electronic and Optical Properties of Quantum Dots: A Tight - E-LIB
... In the pursuit of further miniaturization of semiconductor devices, the nanometer technology made the confinement of the carriers from three to lower dimensions possible. In this progress, one is currently reaching the regime where the quantum mechanical description of the system is of major importan ...
... In the pursuit of further miniaturization of semiconductor devices, the nanometer technology made the confinement of the carriers from three to lower dimensions possible. In this progress, one is currently reaching the regime where the quantum mechanical description of the system is of major importan ...
Exciton Fine-Structure Splitting in Self- Assembled Lateral InAs/GaAs Quantum-Dot Molecular Structures
... accompanied by a corresponding difference in the optical polarization directions of the excitons between these QMSs, namely, the bright-exciton lines are linearly polarized preferably along or perpendicular to the [11̅0] crystallographic axis in the DQDs that also defines the alignment direction of ...
... accompanied by a corresponding difference in the optical polarization directions of the excitons between these QMSs, namely, the bright-exciton lines are linearly polarized preferably along or perpendicular to the [11̅0] crystallographic axis in the DQDs that also defines the alignment direction of ...
Quantum Computation and Quantum Information 10th Anniversary
... In praise of the book 10 years after publication Ten years after its initial publication, “Mike and Ike” (as it’s affectionately called) remains the quantum computing textbook to which all others are compared. No other book in the field matches its scope: from experimental implementation to complexi ...
... In praise of the book 10 years after publication Ten years after its initial publication, “Mike and Ike” (as it’s affectionately called) remains the quantum computing textbook to which all others are compared. No other book in the field matches its scope: from experimental implementation to complexi ...
Full observation of single-atom dynamics in cavity QED
... individual “scattering” event (transit). The data clearly illustrate variations caused by atomic motion through the (Gaussian) spatial structure of the cavity eigenmode and/or optical pumping among the atomic internal (Zeeman) states. In certain parameter regimes of the detuning and probe power, dis ...
... individual “scattering” event (transit). The data clearly illustrate variations caused by atomic motion through the (Gaussian) spatial structure of the cavity eigenmode and/or optical pumping among the atomic internal (Zeeman) states. In certain parameter regimes of the detuning and probe power, dis ...
Theoretical study of light and sound interaction in phoxonic
... main roadblock in the implementation of low-cost photonic devices on silicon using mainstream CMOS technologies [7]. Precisely, this is the reason why silicon has been chosen as the host material to study light-sound interaction in phoxonic nanostructures in this Ph.D. Thesis. Periodicity can play ...
... main roadblock in the implementation of low-cost photonic devices on silicon using mainstream CMOS technologies [7]. Precisely, this is the reason why silicon has been chosen as the host material to study light-sound interaction in phoxonic nanostructures in this Ph.D. Thesis. Periodicity can play ...
electron transport in quantum dots. - Leo Kouwenhoven
... the dot. Because of the analogies to real atoms, quantum dots are sometimes referred to as artificial atoms [2]. The atom-like physics of dots is studied not via their interaction with light, however, but instead by measuring their transport properties, that is, by their ability to carry an electric ...
... the dot. Because of the analogies to real atoms, quantum dots are sometimes referred to as artificial atoms [2]. The atom-like physics of dots is studied not via their interaction with light, however, but instead by measuring their transport properties, that is, by their ability to carry an electric ...
Quantum Computing - Department of Computing
... such tuple. For example there is only one nontrivial classical gate with one input and one output bit, namely the NOT gate with 0 7→ 1 and 1 7→ 0. A quantum gate is the quantum analogue of a classical gate. It takes a tuple of qubits and outputs another such tuple. Let’s see how to define a quantum ...
... such tuple. For example there is only one nontrivial classical gate with one input and one output bit, namely the NOT gate with 0 7→ 1 and 1 7→ 0. A quantum gate is the quantum analogue of a classical gate. It takes a tuple of qubits and outputs another such tuple. Let’s see how to define a quantum ...
Chapter 1
... (classical) probabilistic computer is more powerful than a deterministic (classical) computer. Based on the above property of probabilistic measurement a quantum computer is at least as powerful as a classical deterministic computer or a classical probabilistic computer. Quantum computer can be in p ...
... (classical) probabilistic computer is more powerful than a deterministic (classical) computer. Based on the above property of probabilistic measurement a quantum computer is at least as powerful as a classical deterministic computer or a classical probabilistic computer. Quantum computer can be in p ...
Nonequilibrium entropy production in open and closed quantum
... quantum system to its thermal surroundings. Therefore, we start with an introductory chapter 2, in which we summarize the main developments in recent statistical physics for classical systems arbitrarily far from equilibrium. In particular, we will briefly summarize the notion of fluctuation theorem ...
... quantum system to its thermal surroundings. Therefore, we start with an introductory chapter 2, in which we summarize the main developments in recent statistical physics for classical systems arbitrarily far from equilibrium. In particular, we will briefly summarize the notion of fluctuation theorem ...
No Slide Title
... D-theory versus Standard model of quantum mechanics Understanding of D-theory does not insist on deep familiarity with Standard model. One foundation of Standard model is the wave function and the global and local invariance of its phase or so called gauge principle. According to the global gauge p ...
... D-theory versus Standard model of quantum mechanics Understanding of D-theory does not insist on deep familiarity with Standard model. One foundation of Standard model is the wave function and the global and local invariance of its phase or so called gauge principle. According to the global gauge p ...
Nonequilibrium Green`s function approach
... As we will see later on this approach is based on methods of quantum field theory, and is able to deal with many important problems of statistical physics17–27 and generalization of equilibrium many-body techniques8–14 to nonequilibrium systems. This approach has been used for such diverse nonequili ...
... As we will see later on this approach is based on methods of quantum field theory, and is able to deal with many important problems of statistical physics17–27 and generalization of equilibrium many-body techniques8–14 to nonequilibrium systems. This approach has been used for such diverse nonequili ...
Vortex Dynamics in Bose-Einstein Condensates
... circumference of the orbit has to be an integer multiple of the de Broglie wavelength. This “quantization rule” leads to Bohr model and discrete energy levels of the hydrogen atom. For a rotating superfluid it leads to quantized vortices. When normal fluid is rotated in a container, the fluid rotate ...
... circumference of the orbit has to be an integer multiple of the de Broglie wavelength. This “quantization rule” leads to Bohr model and discrete energy levels of the hydrogen atom. For a rotating superfluid it leads to quantized vortices. When normal fluid is rotated in a container, the fluid rotate ...