Observation of topological links associated with Hopf
... 3D torus that represents the momentum space with the 2D Bloch sphere that describes the state space of a two-band Hamiltonian. Hence, the topological Hopf insulators could exist for two-band Hamiltonians in 3D space, which lie outside of the standard classification paradigm of topological phases. Im ...
... 3D torus that represents the momentum space with the 2D Bloch sphere that describes the state space of a two-band Hamiltonian. Hence, the topological Hopf insulators could exist for two-band Hamiltonians in 3D space, which lie outside of the standard classification paradigm of topological phases. Im ...
Physical Foundations of Quantum Electronics
... Although some parts of the book look very new even now, others are definitely outdated. This statement relates not to the sections or even subsections of the book; rather, it is about numerous references to the technology or parameters of the equipment that were available when the book was written. ...
... Although some parts of the book look very new even now, others are definitely outdated. This statement relates not to the sections or even subsections of the book; rather, it is about numerous references to the technology or parameters of the equipment that were available when the book was written. ...
Mutually Unbiased bases: a brief survey
... The mathematical framework for Quantum Mechanics is a complex Hilbert space (usually of infinite dimension). Quantum information deals with systems of finite dimension, so the setting for this work will be a complex Hilbert space of dimension d, Cd . 1 The state of a quantum system is completely spe ...
... The mathematical framework for Quantum Mechanics is a complex Hilbert space (usually of infinite dimension). Quantum information deals with systems of finite dimension, so the setting for this work will be a complex Hilbert space of dimension d, Cd . 1 The state of a quantum system is completely spe ...
Ultracold Fermions in Two-Dimensional Planes with Dipolar
... and Landau, were very fruitful, a modern description has to be founded in the theoretical framework of quantum mechanics. In contrast to ultracold bosons being in the Bose condensate phase, which are described by a macroscopical wave function of one coordinate in position space, ultracold fermions h ...
... and Landau, were very fruitful, a modern description has to be founded in the theoretical framework of quantum mechanics. In contrast to ultracold bosons being in the Bose condensate phase, which are described by a macroscopical wave function of one coordinate in position space, ultracold fermions h ...
The Emperor`s New Mind by Roger Penrose
... including the 1988 Wolf Prize for physics which he shared with Stephen Hawking for their joint contribution to our understanding of the universe. "Many mathematicians working in computer science propose that it will soon be possible to build computers capable of artificial intelligence, machines tha ...
... including the 1988 Wolf Prize for physics which he shared with Stephen Hawking for their joint contribution to our understanding of the universe. "Many mathematicians working in computer science propose that it will soon be possible to build computers capable of artificial intelligence, machines tha ...
Section 4.1: The Definite Integral
... with the differential calculus-by asking a question about curves in the plane. Suppose f is a real function continuous on an interval I and consider the curve y = f(x). Let a < b where a, bare two points in J, and let the curve be above the x-axis for x between a and b; that is, f(x) ~ 0. We then as ...
... with the differential calculus-by asking a question about curves in the plane. Suppose f is a real function continuous on an interval I and consider the curve y = f(x). Let a < b where a, bare two points in J, and let the curve be above the x-axis for x between a and b; that is, f(x) ~ 0. We then as ...
Springer Tracts in Modern Physics
... and classical chaos. Hence mesoscopics has developed into a prominent field of application of quantum chaos. This book combines both mesoscopics and quantum chaos. This connection between mesoscopic quantum phenomena and classical dynamics is naturally achieved in the framework of advanced semiclass ...
... and classical chaos. Hence mesoscopics has developed into a prominent field of application of quantum chaos. This book combines both mesoscopics and quantum chaos. This connection between mesoscopic quantum phenomena and classical dynamics is naturally achieved in the framework of advanced semiclass ...
Chapter 3: Quantum Computing
... entangled states can be compressed to fewer qubits. This quantum compression could have important applications in practice, where the number of usable qubits is very limited. Schumacher [101] considered compression and decompression of a noiseless source of n quantum bits (qubits), each sampled inde ...
... entangled states can be compressed to fewer qubits. This quantum compression could have important applications in practice, where the number of usable qubits is very limited. Schumacher [101] considered compression and decompression of a noiseless source of n quantum bits (qubits), each sampled inde ...
Operator Guide Standard Model
... becomes non linear when translated into spinor language. This means that some problems that are simple in one of these formalisms will become nonlinear problems, difficult to solve, in the other. To take advantage of both these sorts of problem solving, we must have tools to move back and forth betw ...
... becomes non linear when translated into spinor language. This means that some problems that are simple in one of these formalisms will become nonlinear problems, difficult to solve, in the other. To take advantage of both these sorts of problem solving, we must have tools to move back and forth betw ...
Studies of Infinite Two-Dimensional Quantum Lattice
... Determining the properties of quantum many-body systems is a central challenge in modern physics. Being able to determine the macroscopic properties of a system from its microscopic description would hasten progress in many fields of science and technology. However, we currently lack the tools to so ...
... Determining the properties of quantum many-body systems is a central challenge in modern physics. Being able to determine the macroscopic properties of a system from its microscopic description would hasten progress in many fields of science and technology. However, we currently lack the tools to so ...
ABSTRACT RANDOM ROUTING AND CONCENTRATION IN QUANTUM SWITCHING NETWORKS
... the realization of all concentration patterns with self-routing. In the last part we consider the scenario in which quantum packets are queued at the inputs to an n × n quantum non-blocking switch. We assume that each packet is a superposition of m classical packets. Under the assumption of uniform ...
... the realization of all concentration patterns with self-routing. In the last part we consider the scenario in which quantum packets are queued at the inputs to an n × n quantum non-blocking switch. We assume that each packet is a superposition of m classical packets. Under the assumption of uniform ...