Quantum Mechanics
... Quantum field theory is a cornerstone of our tentative of interpreting the data obtained by our senses and instruments - the extensions of our senses - that constitute what we call real world. Quantum field theory is a tentative to go into some of the inmost folds of these perceptions, a look at sca ...
... Quantum field theory is a cornerstone of our tentative of interpreting the data obtained by our senses and instruments - the extensions of our senses - that constitute what we call real world. Quantum field theory is a tentative to go into some of the inmost folds of these perceptions, a look at sca ...
Microscopic description of two dimensional dipolar quantum gases Universitat Polit` ecnica de Catalunya
... In both systems, bosonic and fermionic, there is a quantum phase transition from a gas (at low densities) to a crystalline solid (at high densities). Although two dimensional isotropic dipolar gases have been a widely studied many-body system, not much effort has been devoted to the analysis of dipo ...
... In both systems, bosonic and fermionic, there is a quantum phase transition from a gas (at low densities) to a crystalline solid (at high densities). Although two dimensional isotropic dipolar gases have been a widely studied many-body system, not much effort has been devoted to the analysis of dipo ...
Physics at the FQMT`11 conference
... processes during experiments on nano-size systems which must be, due to their contacts, understood as open systems. These transients, switching-on or off processes, generally start from highly non-equilibrium quantum initial states. The proper understanding of formulation of the initial state (i.e. ...
... processes during experiments on nano-size systems which must be, due to their contacts, understood as open systems. These transients, switching-on or off processes, generally start from highly non-equilibrium quantum initial states. The proper understanding of formulation of the initial state (i.e. ...
Biological Autonomy
... quantum vacuum processes in the context of biological teleology. One faces at least three basic problems of genuine biological autonomy: (1) if biological autonomy is not physical, where does it come from? (2) Is there a room for biological causes? And (3) how to obtain a workable model of biologica ...
... quantum vacuum processes in the context of biological teleology. One faces at least three basic problems of genuine biological autonomy: (1) if biological autonomy is not physical, where does it come from? (2) Is there a room for biological causes? And (3) how to obtain a workable model of biologica ...
Wholeness and the Implicate Order
... what extent would this be possible? Does the content of thought merely give us abstract and simplified ‘snapshots’ of reality, or can it go further, somehow to grasp the very essence of the living movement that we sense in actual experience? It is clear that in reflecting on and pondering the nature o ...
... what extent would this be possible? Does the content of thought merely give us abstract and simplified ‘snapshots’ of reality, or can it go further, somehow to grasp the very essence of the living movement that we sense in actual experience? It is clear that in reflecting on and pondering the nature o ...
Decoherence of a Quantum Bit Circuit
... a voltage source. Right: schematic circuit. The Josephson coupling allows the exchange of Cooper pairs. The phase of the superconducting island and the number of extra Cooper pairs inside are conjugated variables. The phase qubit[16] developed at NIST (Boulder) consists of a Josephson junction in a ...
... a voltage source. Right: schematic circuit. The Josephson coupling allows the exchange of Cooper pairs. The phase of the superconducting island and the number of extra Cooper pairs inside are conjugated variables. The phase qubit[16] developed at NIST (Boulder) consists of a Josephson junction in a ...
Free Will as Involving Indeterminacy and Inconceivable Without It
... “Now, in so far as this "interposition of the self" is undetermined, the act is not its act, it does not issue from any concrete continuing self; it is born at the moment, of nothing, hence it expresses no quality; it bursts into being from no source”. 17 Hobart is not nearly as extreme as Smart and ...
... “Now, in so far as this "interposition of the self" is undetermined, the act is not its act, it does not issue from any concrete continuing self; it is born at the moment, of nothing, hence it expresses no quality; it bursts into being from no source”. 17 Hobart is not nearly as extreme as Smart and ...
Quantum Annealing with Markov Chain Monte Carlo Simulations
... and its implementations, and the second part proposes statistical methodologies to analyze data generated from annealing experiments. Specifically, we introduce quantum annealing to solve optimization problems and describe D-Wave computing devices to implement quantum annealing. We illustrate implem ...
... and its implementations, and the second part proposes statistical methodologies to analyze data generated from annealing experiments. Specifically, we introduce quantum annealing to solve optimization problems and describe D-Wave computing devices to implement quantum annealing. We illustrate implem ...
Paul A.M. Dirac`sThe Principles of Quantum Mechanics | SpringerLink
... In 1935, on the way home from the United States, Dirac visited Japan for the second time. A little before that, Dr. Nishina had suggested that we translate the second edition of his book. According to Dr. Nishina, the author himself had told him that the time was right to bring out a Japanese versio ...
... In 1935, on the way home from the United States, Dirac visited Japan for the second time. A little before that, Dr. Nishina had suggested that we translate the second edition of his book. According to Dr. Nishina, the author himself had told him that the time was right to bring out a Japanese versio ...
Here - Fifth Quantum Thermodynamics Conference
... output states happen to be Gibbs states, then the coherent relative entropy coincides with the difference of the relative entropies of the input and the output state to the Gibbs state. This latter property allows us to recover macroscopic thermodynamics as emergent from our microscopic model. Our f ...
... output states happen to be Gibbs states, then the coherent relative entropy coincides with the difference of the relative entropies of the input and the output state to the Gibbs state. This latter property allows us to recover macroscopic thermodynamics as emergent from our microscopic model. Our f ...
Cabello`s nonlocality for generalized three
... two-way local correlations that are not fully local [15], which means that such correlations can be accounted for by a hybrid hidden variables model in which arbitrary (though no-signaling) correlations may take place between two of the qubits, but only local correlations are present between these t ...
... two-way local correlations that are not fully local [15], which means that such correlations can be accounted for by a hybrid hidden variables model in which arbitrary (though no-signaling) correlations may take place between two of the qubits, but only local correlations are present between these t ...
Quantum tomography via compressed sensing: error bounds, sample complexity and... estimators
... data set scales as O(m) rather than O(d 2 ). It may be surprising to the reader that we outperform MLE, since it is often remarked (somewhat vaguely) that ‘MLE is optimal’. However, MLE is a general-purpose method that does not specifically exploit the fact that the state is low-rank. Also, the opti ...
... data set scales as O(m) rather than O(d 2 ). It may be surprising to the reader that we outperform MLE, since it is often remarked (somewhat vaguely) that ‘MLE is optimal’. However, MLE is a general-purpose method that does not specifically exploit the fact that the state is low-rank. Also, the opti ...
An Introduction to Quantum Game Theory
... that makes quantum games different from classical games, whether or not the superposed states are entangled. For dynamic games, superposition suffices, though static games generally require entanglement also. (Superposition is the ability of a quantum observable to be in a linear combination of two ...
... that makes quantum games different from classical games, whether or not the superposed states are entangled. For dynamic games, superposition suffices, though static games generally require entanglement also. (Superposition is the ability of a quantum observable to be in a linear combination of two ...
Singularity of the time-energy uncertainty in adiabatic perturbation
... one, and adiabatic quantum computation10 , an alternative to the quantum circuit model for quantum computing. The adiabatic theorem dictates that as long as a system changes slowly enough, a quantum system starting from an eigenstate would remain in the instantaneous eigenstate of the time-dependent ...
... one, and adiabatic quantum computation10 , an alternative to the quantum circuit model for quantum computing. The adiabatic theorem dictates that as long as a system changes slowly enough, a quantum system starting from an eigenstate would remain in the instantaneous eigenstate of the time-dependent ...
On quantum obfuscation - University of Maryland Institute for
... 2. polynomial slowdown: if the input program is efficient, then the output program is efficient; 3. obfuscation: the code of the output program is “hard to understand.” The last condition can be formulated rigorously in a number of ways. One possibility is the so-called “virtual black-box” condition ...
... 2. polynomial slowdown: if the input program is efficient, then the output program is efficient; 3. obfuscation: the code of the output program is “hard to understand.” The last condition can be formulated rigorously in a number of ways. One possibility is the so-called “virtual black-box” condition ...
Chap 15 Quantum Physics Physics
... (X-ray photons) and weak-binding electrons in the material, part of energy is transported to electron, leads to the energy decrease of scattered photon, hence the frequency, wavelength increases (2) photon collides with tight-binding electron, without significant lost of energy, results in the same ...
... (X-ray photons) and weak-binding electrons in the material, part of energy is transported to electron, leads to the energy decrease of scattered photon, hence the frequency, wavelength increases (2) photon collides with tight-binding electron, without significant lost of energy, results in the same ...