Computing with Atoms and Molecules
... logic operations. Quantum computing hardware is far behind the software, mainly because it is very difficult to maintain quantum-mechanical superpositions throughout the computation. Consider the following stringent (and apparently contradicting) hardware requirements for a quantum computer: (1) The ...
... logic operations. Quantum computing hardware is far behind the software, mainly because it is very difficult to maintain quantum-mechanical superpositions throughout the computation. Consider the following stringent (and apparently contradicting) hardware requirements for a quantum computer: (1) The ...
On the interaction of mesoscopic quantum systems with gravity
... Quantum theory is of a universal nature, too. In contrast to GR, however, it gives the general frame for theories describing particular interactions. In fact, all known interactions besides gravity (that is, the strong and electro-weak interactions) are successfully described by quantum theory. At t ...
... Quantum theory is of a universal nature, too. In contrast to GR, however, it gives the general frame for theories describing particular interactions. In fact, all known interactions besides gravity (that is, the strong and electro-weak interactions) are successfully described by quantum theory. At t ...
A Brief Survey Of Quantum Programming Languages
... most closely. Perhaps the most popular virtual hardware model, and one of the easiest to explain, is the quantum circuit model. Here, a quantum circuit is made up from quantum gates in much the same way as a classical logic circuit is made up from logic gates. The difference is that quantum gates are ...
... most closely. Perhaps the most popular virtual hardware model, and one of the easiest to explain, is the quantum circuit model. Here, a quantum circuit is made up from quantum gates in much the same way as a classical logic circuit is made up from logic gates. The difference is that quantum gates are ...
Quantum Teleportation Between Discrete and Continuous
... benefits from a natural photodetection basis and “builtin” entanglement distillation after losses [3]. This flexibility allows hybrid quantum technologies to offer protocols which are superior to both pure CV and DV solutions [4]. For example, using hybrid methods in quantum computing [5] and error ...
... benefits from a natural photodetection basis and “builtin” entanglement distillation after losses [3]. This flexibility allows hybrid quantum technologies to offer protocols which are superior to both pure CV and DV solutions [4]. For example, using hybrid methods in quantum computing [5] and error ...
The Stern-Gerlach Experiment
... detector. The notes for Physics 6, experiment 9 describe the vacuum system in more detail. Magnet power supply. The magnetic field is generated by a large electromagnet powered by an Figure 3: The heart of the apparatus, with the adjustable, regulated power supply. Because the field oven, atomic bea ...
... detector. The notes for Physics 6, experiment 9 describe the vacuum system in more detail. Magnet power supply. The magnetic field is generated by a large electromagnet powered by an Figure 3: The heart of the apparatus, with the adjustable, regulated power supply. Because the field oven, atomic bea ...
Slide 1
... quasifree colored quarks a) Hadron form factors The introduction of colored quarks, representing physical fundamental particles, paved the way for the dynamic description of hadrons. The main obstacle, here, was the absence of quarks in a free state. Although it was evident that the issue of confine ...
... quasifree colored quarks a) Hadron form factors The introduction of colored quarks, representing physical fundamental particles, paved the way for the dynamic description of hadrons. The main obstacle, here, was the absence of quarks in a free state. Although it was evident that the issue of confine ...
PDF
... the proper handling of linearity; here, one has to account for the fact that quantum information, unlike classical information, cannot be duplicated due to the so-called “no-cloning property”. Van Tonder, in a pair of papers [16, 17], has described a linear lambda calculus for quantum computation, w ...
... the proper handling of linearity; here, one has to account for the fact that quantum information, unlike classical information, cannot be duplicated due to the so-called “no-cloning property”. Van Tonder, in a pair of papers [16, 17], has described a linear lambda calculus for quantum computation, w ...
Quantum State Preparation via Asymptotic Completeness
... (and is limited by the number of available Zeeman levels), and in [3] an appropriate, time-dependent cavity QED interaction is designed to create the desired field state. Both methods are essentially guided by general principles of coherent control: The atom-field system is transferred from a well-d ...
... (and is limited by the number of available Zeeman levels), and in [3] an appropriate, time-dependent cavity QED interaction is designed to create the desired field state. Both methods are essentially guided by general principles of coherent control: The atom-field system is transferred from a well-d ...
OPTICS14399
... probability, whereas the symmetry of the remaining state survives with a maximum probability of 0.5 at the asymptotic limit. Next, we examine the exchange symmetry properties of the same states under local, quantum mechanical noise which is modeled by two identical spin baths. Results turn out to be ...
... probability, whereas the symmetry of the remaining state survives with a maximum probability of 0.5 at the asymptotic limit. Next, we examine the exchange symmetry properties of the same states under local, quantum mechanical noise which is modeled by two identical spin baths. Results turn out to be ...
